/* required on old Windows for rand_s to be defined */
#ifdef _WIN32
#define _CRT_RAND_S
#endif

#include <bson/bson-iso8601-private.h>
#include <bson/bson-json-private.h>
#include <common-json-private.h>
#include <common-string-private.h>

#include <bson/bson.h>

#include <mlib/cmp.h>

#include <TestSuite.h>
#include <test-conveniences.h>

#include <math.h>

static ssize_t
test_bson_json_read_cb_helper(void *string, uint8_t *buf, size_t len)
{
   size_t str_size = strlen((char *)string);
   if (str_size) {
      memcpy(buf, string, BSON_MIN(str_size, len));
      return str_size;
   } else {
      return 0;
   }
}

static void
test_bson_json_allow_multiple(void)
{
   int32_t one;
   bson_error_t error;
   bson_json_reader_t *reader;
   bson_t bson;
   const char *collection;
   const bson_oid_t *oid;
   bson_oid_t oid_expected;
   int i;
   /* nested JSON tests code that reuses parser stack frames, CDRIVER-2524 */
   char *multiple_json = "{\"a\": 1}"
                         "{\"b\": {\"$dbPointer\": "
                         "  {\"$ref\": \"c\", \"$id\": {\"$oid\": \"12341234123412abcdababcd\"}}}}"
                         "{\"c\": {\"x\": 1}}";

   bson_oid_init_from_string(&oid_expected, "12341234123412abcdababcd");

   for (i = 0; i < 2; i++) {
      reader =
         bson_json_reader_new(multiple_json, &test_bson_json_read_cb_helper, NULL, i == 1 /* allow_multiple */, 0);

      BSON_ASSERT(reader);

      /* read first json */
      bson_init(&bson);
      ASSERT_CMPINT(1, ==, bson_json_reader_read(reader, &bson, &error));
      BCON_EXTRACT(&bson, "a", BCONE_INT32(one));
      ASSERT_CMPINT(1, ==, one);

      /* read second json */
      bson_reinit(&bson);
      ASSERT_CMPINT(1, ==, bson_json_reader_read(reader, &bson, &error));
      BCON_EXTRACT(&bson, "b", BCONE_DBPOINTER(collection, oid));
      ASSERT_CMPSTR(collection, "c");
      BSON_ASSERT(0 == bson_oid_compare(oid, &oid_expected));

      /* read third json */
      bson_reinit(&bson);
      ASSERT_CMPINT(1, ==, bson_json_reader_read(reader, &bson, &error));
      BCON_EXTRACT(&bson, "c", BCONE_INT32(one));
      ASSERT_CMPINT(1, ==, one);

      /* surprisingly, the reader begins at the start of the string again */
      bson_reinit(&bson);
      ASSERT_CMPINT(1, ==, bson_json_reader_read(reader, &bson, &error));
      BCON_EXTRACT(&bson, "a", BCONE_INT32(one));
      ASSERT_CMPINT(1, ==, one);

      bson_json_reader_destroy(reader);
      bson_destroy(&bson);
   }
}


static void
test_bson_as_json_x1000(void)
{
   bson_oid_t oid;
   bson_decimal128_t decimal128;
   bson_t *b;
   bson_t *b2;
   char *str;
   size_t len;
   int i;

   decimal128.high = 0x3040000000000000ULL;
   decimal128.low = 0x000000000000000B;
   bson_oid_init_from_string(&oid, "123412341234abcdabcdabcd");

   b = bson_new();
   BSON_ASSERT(bson_append_utf8(b, "utf8", -1, "bar", -1));
   BSON_ASSERT(bson_append_int32(b, "int32", -1, 1234));
   BSON_ASSERT(bson_append_int64(b, "int64", -1, 4321));
   BSON_ASSERT(bson_append_double(b, "double", -1, 123.4));
   BSON_ASSERT(bson_append_undefined(b, "undefined", -1));
   BSON_ASSERT(bson_append_null(b, "null", -1));
   BSON_ASSERT(bson_append_oid(b, "oid", -1, &oid));
   BSON_ASSERT(bson_append_bool(b, "true", -1, true));
   BSON_ASSERT(bson_append_bool(b, "false", -1, false));
   BSON_ASSERT(bson_append_time_t(b, "date", -1, time(NULL)));
   BSON_ASSERT(bson_append_timestamp(b, "timestamp", -1, (uint32_t)time(NULL), 1234));
   BSON_ASSERT(bson_append_regex(b, "regex", -1, "^abcd", "xi"));
   BSON_ASSERT(bson_append_dbpointer(b, "dbpointer", -1, "mycollection", &oid));
   BSON_ASSERT(bson_append_minkey(b, "minkey", -1));
   BSON_ASSERT(bson_append_maxkey(b, "maxkey", -1));
   BSON_ASSERT(bson_append_symbol(b, "symbol", -1, "var a = {};", -1));
   BSON_ASSERT(bson_append_decimal128(b, "decimal128", -1, &decimal128));

   b2 = bson_new();
   BSON_ASSERT(bson_append_int32(b2, "0", -1, 60));
   BSON_ASSERT(bson_append_document(b, "document", -1, b2));
   BSON_ASSERT(bson_append_array(b, "array", -1, b2));

   {
      const uint8_t binary[] = {0, 1, 2, 3, 4};
      BSON_ASSERT(bson_append_binary(b, "binary", -1, BSON_SUBTYPE_BINARY, binary, sizeof binary));
   }

   for (i = 0; i < 1000; i++) {
      str = bson_as_legacy_extended_json(b, &len);
      bson_free(str);
   }

   bson_destroy(b);
   bson_destroy(b2);
}


static void
test_bson_as_json_multi(void)
{
   bson_t *b;
   char *str;
   size_t len;

   b = bson_new();

   {
      bson_oid_t oid;
      bson_oid_init_from_string(&oid, "57e193d7a9cc81b4027498b5");
      BSON_ASSERT(bson_append_oid(b, "_id", -1, &oid));
   }

   BSON_ASSERT(bson_append_symbol(b, "Symbol", -1, "symbol", -1));
   BSON_ASSERT(bson_append_utf8(b, "String", -1, "string", -1));
   BSON_ASSERT(bson_append_int32(b, "Int32", -1, 42));
   BSON_ASSERT(bson_append_int64(b, "Int64", -1, 42));
   BSON_ASSERT(bson_append_double(b, "Double", -1, -1.0));

   {
      const uint8_t binary[] = {
         0xa3, 0x4c, 0x38, 0xf7, 0xc3, 0xab, 0xed, 0xc8, 0xa3, 0x78, 0x14, 0xa9, 0x92, 0xab, 0x8d, 0xb6};
      BSON_ASSERT(bson_append_binary(b, "Binary", -1, BSON_SUBTYPE_UUID_DEPRECATED, binary, sizeof binary));
   }

   {
      const uint8_t binary[] = {1, 2, 3, 4, 5};
      BSON_ASSERT(bson_append_binary(b, "BinaryUserDefined", -1, BSON_SUBTYPE_USER, binary, sizeof binary));
   }

   BSON_ASSERT(bson_append_code(b, "Code", -1, "function() {}"));

   {
      bson_t *scope = bson_new();
      BSON_ASSERT(bson_append_code_with_scope(b, "CodeWithScope", -1, "function() {}", scope));
      bson_destroy(scope);
   }

   {
      bson_t *document = bson_new();
      BSON_ASSERT(bson_append_utf8(document, "foo", -1, "bar", -1));
      BSON_ASSERT(bson_append_document(b, "Subdocument", -1, document));
      bson_destroy(document);
   }

   {
      bson_t *array = bson_new();
      BSON_ASSERT(bson_append_int32(array, "0", -1, 1));
      BSON_ASSERT(bson_append_int32(array, "1", -1, 2));
      BSON_ASSERT(bson_append_int32(array, "2", -1, 3));
      BSON_ASSERT(bson_append_int32(array, "3", -1, 4));
      BSON_ASSERT(bson_append_int32(array, "4", -1, 5));
      BSON_ASSERT(bson_append_array(b, "Array", -1, array));
      bson_destroy(array);
   }

   BSON_ASSERT(bson_append_timestamp(b, "Timestamp", -1, 42, 1));
   BSON_ASSERT(bson_append_regex(b, "Regex", -1, "pattern", ""));
   BSON_ASSERT(bson_append_date_time(b, "DatetimeEpoch", -1, 0));
   BSON_ASSERT(bson_append_date_time(b, "DatetimePositive", -1, (int64_t)2147483647LL));
   BSON_ASSERT(bson_append_date_time(b, "DatetimeNegative", -1, (int64_t)-2147483648LL));
   BSON_ASSERT(bson_append_bool(b, "True", -1, true));
   BSON_ASSERT(bson_append_bool(b, "False", -1, false));

   {
      bson_oid_t oid;
      bson_oid_init_from_string(&oid, "57e193d7a9cc81b4027498b1");
      BSON_ASSERT(bson_append_dbpointer(b, "DBPointer", -1, "collection", &oid));
   }

   {
      bson_oid_t oid;
      bson_t *dbref = bson_new();
      bson_oid_init_from_string(&oid, "57fd71e96e32ab4225b723fb");
      BSON_ASSERT(bson_append_utf8(dbref, "$ref", -1, "collection", -1));
      BSON_ASSERT(bson_append_oid(dbref, "$id", -1, &oid));
      BSON_ASSERT(bson_append_utf8(dbref, "$db", -1, "database", -1));
      BSON_ASSERT(bson_append_document(b, "DBRef", -1, dbref));
      bson_destroy(dbref);
   }

   BSON_ASSERT(bson_append_minkey(b, "Minkey", -1));
   BSON_ASSERT(bson_append_maxkey(b, "Maxkey", -1));
   BSON_ASSERT(bson_append_null(b, "Null", -1));
   BSON_ASSERT(bson_append_undefined(b, "Undefined", -1));

   {
      bson_decimal128_t decimal128;
      decimal128.high = 0x3040000000000000ULL;
      decimal128.low = 0x000000000000000B;
      BSON_ASSERT(bson_append_decimal128(b, "Decimal128", -1, &decimal128));
   }

   str = bson_as_legacy_extended_json(b, &len);

   /* Based on multi-type-deprecated.json from BSON Corpus Tests. */
   ASSERT_CMPSTR(str,
                 "{"
                 " \"_id\" : { \"$oid\" : \"57e193d7a9cc81b4027498b5\" },"
                 " \"Symbol\" : \"symbol\","
                 " \"String\" : \"string\","
                 " \"Int32\" : 42,"
                 " \"Int64\" : 42,"
                 " \"Double\" : -1.0,"
                 " \"Binary\" : { \"$binary\" : \"o0w498Or7cijeBSpkquNtg==\", \"$type\" : "
                 "\"03\" },"
                 " \"BinaryUserDefined\" : { \"$binary\" : \"AQIDBAU=\", \"$type\" : "
                 "\"80\" },"
                 " \"Code\" : { \"$code\" : \"function() {}\" },"
                 " \"CodeWithScope\" : { \"$code\" : \"function() {}\", \"$scope\" : { } "
                 "},"
                 " \"Subdocument\" : { \"foo\" : \"bar\" },"
                 " \"Array\" : [ 1, 2, 3, 4, 5 ],"
                 " \"Timestamp\" : { \"$timestamp\" : { \"t\" : 42, \"i\" : 1 } },"
                 " \"Regex\" : { \"$regex\" : \"pattern\", \"$options\" : \"\" },"
                 " \"DatetimeEpoch\" : { \"$date\" : 0 },"
                 " \"DatetimePositive\" : { \"$date\" : 2147483647 },"
                 " \"DatetimeNegative\" : { \"$date\" : -2147483648 },"
                 " \"True\" : true,"
                 " \"False\" : false,"
                 " \"DBPointer\" : { \"$ref\" : \"collection\", \"$id\" : "
                 "\"57e193d7a9cc81b4027498b1\" },"
                 " \"DBRef\" : { \"$ref\" : \"collection\", \"$id\" : { \"$oid\" : "
                 "\"57fd71e96e32ab4225b723fb\" }, \"$db\" : \"database\" },"
                 " \"Minkey\" : { \"$minKey\" : 1 },"
                 " \"Maxkey\" : { \"$maxKey\" : 1 },"
                 " \"Null\" : null,"
                 " \"Undefined\" : { \"$undefined\" : true },"
                 " \"Decimal128\" : { \"$numberDecimal\" : \"11\" } }");

   bson_free(str);
   bson_destroy(b);
}


static void
test_bson_as_json_string(void)
{
   size_t len;
   bson_t *b;
   char *str;

   b = bson_new();
   BSON_ASSERT(bson_append_utf8(b, "foo", -1, "bar", -1));
   str = bson_as_legacy_extended_json(b, &len);
   BSON_ASSERT(len == 17);
   BSON_ASSERT(!strcmp("{ \"foo\" : \"bar\" }", str));
   bson_free(str);
   bson_destroy(b);
}


static void
test_bson_as_json_int32(void)
{
   size_t len;
   bson_t *b;
   char *str;

   b = bson_new();
   BSON_ASSERT(bson_append_int32(b, "foo", -1, 1234));
   str = bson_as_legacy_extended_json(b, &len);
   BSON_ASSERT(len == 16);
   BSON_ASSERT(!strcmp("{ \"foo\" : 1234 }", str));
   bson_free(str);
   bson_destroy(b);
}


static void
test_bson_as_json_int64(void)
{
   size_t len;
   bson_t *b;
   char *str;

   b = bson_new();
   BSON_ASSERT(bson_append_int64(b, "foo", -1, 341234123412341234ULL));
   str = bson_as_legacy_extended_json(b, &len);
   BSON_ASSERT(len == 30);
   BSON_ASSERT(!strcmp("{ \"foo\" : 341234123412341234 }", str));
   bson_free(str);
   bson_destroy(b);
}


static void
test_bson_as_json_double(void)
{
   size_t len;
   bson_t *b;
   char *str;
   char *expected;

   b = bson_new();
   BSON_ASSERT(bson_append_double(b, "foo", -1, 123.5));
   BSON_ASSERT(bson_append_double(b, "bar", -1, 3));
   BSON_ASSERT(bson_append_double(b, "baz", -1, -1));
   BSON_ASSERT(bson_append_double(b, "quux", -1, 0.03125));
   BSON_ASSERT(bson_append_double(b, "huge", -1, 1e99));
   str = bson_as_legacy_extended_json(b, &len);

   expected = bson_strdup_printf("{"
                                 " \"foo\" : 123.5,"
                                 " \"bar\" : 3.0,"
                                 " \"baz\" : -1.0,"
                                 " \"quux\" : 0.03125,"
                                 " \"huge\" : %.20g }",
                                 1e99);

   ASSERT_CMPSTR(str, expected);

   bson_free(expected);
   bson_free(str);
   bson_destroy(b);
}


static void
test_bson_as_json_double_nonfinite(void)
{
   size_t len;
   bson_t *b;
   char *str;
   char *expected;

   const double pos_inf = INFINITY;
   const double neg_inf = -pos_inf;

   b = bson_new();
   BSON_ASSERT(bson_append_double(b, "nan", -1, NAN));
   BSON_ASSERT(bson_append_double(b, "pos_inf", -1, pos_inf));
   BSON_ASSERT(bson_append_double(b, "neg_inf", -1, neg_inf));
   str = bson_as_legacy_extended_json(b, &len);

   expected = bson_strdup_printf("{"
                                 " \"nan\" : %.20g,"
                                 " \"pos_inf\" : %.20g,"
                                 " \"neg_inf\" : %.20g }",
                                 NAN,
                                 pos_inf,
                                 neg_inf);

   ASSERT_CMPSTR(str, expected);

   bson_free(expected);
   bson_free(str);
   bson_destroy(b);
}


static void
test_bson_as_json_decimal128(void)
{
   size_t len;
   bson_t *b;
   char *str;
   bson_decimal128_t decimal128;
   decimal128.high = 0x3040000000000000ULL;
   decimal128.low = 0x000000000000000B;

   b = bson_new();
   BSON_ASSERT(bson_append_decimal128(b, "decimal128", -1, &decimal128));
   str = bson_as_legacy_extended_json(b, &len);
   ASSERT_CMPSTR(str,
                 "{ "
                 "\"decimal128\" : { \"$numberDecimal\" : \"11\" }"
                 " }");

   bson_free(str);
   bson_destroy(b);
}


static void
test_bson_as_json_code(void)
{
   bson_t code = BSON_INITIALIZER;
   bson_t scope = BSON_INITIALIZER;
   char *str;

   BSON_ASSERT(bson_append_code(&code, "c", -1, "function () {}"));
   str = bson_as_legacy_extended_json(&code, NULL);
   ASSERT_CMPSTR(str, "{ \"c\" : { \"$code\" : \"function () {}\" } }");

   bson_free(str);
   bson_reinit(&code);

   /* empty scope */
   BSON_ASSERT(BSON_APPEND_CODE_WITH_SCOPE(&code, "c", "function () {}", &scope));
   str = bson_as_legacy_extended_json(&code, NULL);
   ASSERT_CMPSTR(str, "{ \"c\" : { \"$code\" : \"function () {}\", \"$scope\" : { } } }");

   bson_free(str);
   bson_reinit(&code);

   BSON_APPEND_INT32(&scope, "x", 1);
   BSON_ASSERT(BSON_APPEND_CODE_WITH_SCOPE(&code, "c", "function () {}", &scope));
   str = bson_as_legacy_extended_json(&code, NULL);
   ASSERT_CMPSTR(str,
                 "{ \"c\" : { \"$code\" : \"function () {}\", \"$scope\" "
                 ": { \"x\" : 1 } } }");

   bson_free(str);
   bson_reinit(&code);

   /* test that embedded quotes are backslash-escaped */
   BSON_ASSERT(BSON_APPEND_CODE(&code, "c", "return \"a\""));
   str = bson_as_legacy_extended_json(&code, NULL);

   /* hard to read, this is { "c" : { "$code" : "return \"a\"" } } */
   ASSERT_CMPSTR(str, "{ \"c\" : { \"$code\" : \"return \\\"a\\\"\" } }");

   bson_free(str);
   bson_destroy(&code);
   bson_destroy(&scope);
}


static void
test_bson_as_json_date_time(void)
{
   bson_t *b;
   char *str;
   size_t len;

   b = bson_new();
   BSON_ASSERT(bson_append_date_time(b, "epoch", -1, 0));
   BSON_ASSERT(bson_append_date_time(b, "negative", -1, -123456000));
   BSON_ASSERT(bson_append_date_time(b, "positive", -1, 123456000));
   str = bson_as_legacy_extended_json(b, &len);

   ASSERT_CMPSTR(str,
                 "{"
                 " \"epoch\" : { \"$date\" : 0 },"
                 " \"negative\" : { \"$date\" : -123456000 },"
                 " \"positive\" : { \"$date\" : 123456000 } }");

   bson_free(str);
   bson_destroy(b);
}


static void
test_bson_as_json_regex(void)
{
   bson_t *b;
   char *str;
   size_t len;

   b = bson_new();
   BSON_ASSERT(bson_append_regex(b, "regex", -1, "^abcd", "xi"));
   BSON_ASSERT(bson_append_regex(b, "escaping", -1, "^\"", ""));
   BSON_ASSERT(bson_append_regex(b, "ordered", -1, "^abcd", "ilmsux"));
   BSON_ASSERT(bson_append_regex(b, "unordered", -1, "^abcd", "xusmli"));
   BSON_ASSERT(bson_append_regex(b, "duplicate", -1, "^abcd", "mmiii"));
   BSON_ASSERT(bson_append_regex(b, "unsupported", -1, "^abcd", "jkmlvz"));
   str = bson_as_legacy_extended_json(b, &len);

   ASSERT_CMPSTR(str,
                 "{"
                 " \"regex\" : { \"$regex\" : \"^abcd\", \"$options\" "
                 ": \"ix\" },"
                 " \"escaping\" : { \"$regex\" : \"^\\\"\", \"$options\" "
                 ": \"\" },"
                 " \"ordered\" : { \"$regex\" : \"^abcd\", \"$options\" "
                 ": \"ilmsux\" },"
                 " \"unordered\" : { \"$regex\" : \"^abcd\", \"$options\" "
                 ": \"ilmsux\" },"
                 " \"duplicate\" : { \"$regex\" : \"^abcd\", \"$options\" "
                 ": \"im\" },"
                 " \"unsupported\" : { \"$regex\" : \"^abcd\", \"$options\" "
                 ": \"lm\" } }");

   bson_free(str);
   bson_destroy(b);
}


static void
test_bson_as_json_symbol(void)
{
   bson_t *b;
   char *str;
   size_t len;

   b = bson_new();
   BSON_ASSERT(bson_append_symbol(b, "symbol", -1, "foo", -1));
   BSON_ASSERT(bson_append_symbol(b, "escaping", -1, "\"bar\"", -1));
   str = bson_as_legacy_extended_json(b, &len);

   ASSERT_CMPSTR(str,
                 "{"
                 " \"symbol\" : \"foo\","
                 " \"escaping\" : \"\\\"bar\\\"\" }");

   bson_free(str);
   bson_destroy(b);
}


static void
test_bson_as_json_utf8(void)
{
/* euro currency symbol */
#define EU "\xe2\x82\xac"
#define FIVE_EUROS EU EU EU EU EU
   size_t len;
   bson_t *b;
   char *str;

   b = bson_new();
   BSON_ASSERT(bson_append_utf8(b, FIVE_EUROS, -1, FIVE_EUROS, -1));
   str = bson_as_legacy_extended_json(b, &len);
   BSON_ASSERT(!strcmp(str, "{ \"" FIVE_EUROS "\" : \"" FIVE_EUROS "\" }"));
   bson_free(str);
   bson_destroy(b);
}


static void
test_bson_as_json_dbpointer(void)
{
   bson_oid_t oid;
   bson_t *b;
   char *str;
   size_t len;

   bson_oid_init_from_string(&oid, "12341234123412abcdababcd");

   b = bson_new();
   BSON_ASSERT(bson_append_dbpointer(b, "dbpointer", -1, "collection", &oid));
   BSON_ASSERT(bson_append_dbpointer(b, "escaping", -1, "\"coll\"", &oid));
   str = bson_as_legacy_extended_json(b, &len);

   ASSERT_CMPSTR(str,
                 "{"
                 " \"dbpointer\" : { \"$ref\" : \"collection\", \"$id\" "
                 ": \"12341234123412abcdababcd\" },"
                 " \"escaping\" : { \"$ref\" : \"\\\"coll\\\"\", \"$id\" "
                 ": \"12341234123412abcdababcd\" } }");

   bson_free(str);
   bson_destroy(b);
}


static void
test_bson_as_canonical_extended_json_dbpointer(void)
{
   bson_oid_t oid;
   bson_t *b;
   size_t len;
   char *str;

   bson_oid_init_from_string(&oid, "12341234123412abcdababcd");
   b = bson_new();
   BSON_ASSERT(BSON_APPEND_DBPOINTER(b, "p", "coll", &oid));
   str = bson_as_canonical_extended_json(b, &len);
   ASSERT_CMPJSON(str,
                  "{ \"p\" : { \"$dbPointer\" : { \"$ref\" : "
                  "\"coll\", \"$id\" : { \"$oid\" : "
                  "\"12341234123412abcdababcd\" } } } }");

   bson_destroy(b);
}


static void
test_bson_as_json_stack_overflow(void)
{
   uint8_t *buf;
   bson_t b;
   size_t buflen = 1024 * 1024 * 17;
   char *str;
   int fd;
   ssize_t r;

   buf = bson_malloc0(buflen);

   fd = bson_open(BSON_BINARY_DIR "/stackoverflow.bson", O_RDONLY);
   BSON_ASSERT(-1 != fd);

   r = bson_read(fd, buf, buflen);
   BSON_ASSERT(r == 16777220);

   r = bson_init_static(&b, buf, 16777220);
   BSON_ASSERT(r);

   str = bson_as_legacy_extended_json(&b, NULL);
   BSON_ASSERT(str);

   r = !!strstr(str, "...");
   BSON_ASSERT(r);

   bson_free(str);
   bson_destroy(&b);
   bson_free(buf);
}


static void
test_bson_corrupt(void)
{
   uint8_t *buf;
   bson_t b;
   size_t buflen = 1024;
   char *str;
   int fd;
   ssize_t r;

   buf = bson_malloc0(buflen);

   fd = bson_open(BSON_BINARY_DIR "/test55.bson", O_RDONLY);
   BSON_ASSERT(-1 != fd);

   r = bson_read(fd, buf, buflen);
   BSON_ASSERT(r == 24);

   r = bson_init_static(&b, buf, (uint32_t)r);
   BSON_ASSERT(r);

   str = bson_as_legacy_extended_json(&b, NULL);
   BSON_ASSERT(!str);

   bson_destroy(&b);
   bson_free(buf);
}

static void
test_bson_corrupt_utf8(void)
{
   uint8_t *buf;
   bson_t b;
   size_t buflen = 1024;
   char *str;
   int fd;
   ssize_t r;

   buf = bson_malloc0(buflen);

   fd = bson_open(BSON_BINARY_DIR "/test56.bson", O_RDONLY);
   BSON_ASSERT(-1 != fd);

   r = bson_read(fd, buf, buflen);
   BSON_ASSERT(r == 42);

   r = bson_init_static(&b, buf, (uint32_t)r);
   BSON_ASSERT(r);

   str = bson_as_legacy_extended_json(&b, NULL);
   BSON_ASSERT(!str);

   bson_destroy(&b);
   bson_free(buf);
}

static void
test_bson_corrupt_binary(void)
{
   uint8_t *buf;
   bson_t b;
   size_t buflen = 1024;
   char *str;
   int fd;
   ssize_t r;

   buf = bson_malloc0(buflen);

   fd = bson_open(BSON_BINARY_DIR "/test57.bson", O_RDONLY);
   BSON_ASSERT(-1 != fd);

   r = bson_read(fd, buf, buflen);
   BSON_ASSERT(r == 26);

   r = bson_init_static(&b, buf, (uint32_t)r);
   BSON_ASSERT(r);

   str = bson_as_legacy_extended_json(&b, NULL);
   BSON_ASSERT(!str);

   bson_destroy(&b);
   bson_free(buf);
}

#if !defined(BSON_HAVE_RAND_R) && !defined(_WIN32)
static int
rand_r(unsigned int *seed)
{
   srand(*seed);
   return rand();
}
#endif

#ifdef _WIN32
#define RAND_R rand_s
#else
#define RAND_R rand_r
#endif

static char *
rand_str(size_t maxlen, unsigned int *seed /* IN / OUT */, char *buf /* IN / OUT */)
{
   size_t len = RAND_R(seed) % (maxlen - 1);
   size_t i;

   for (i = 0; i < len; i++) {
      buf[i] = (char)('a' + i % 26);
   }

   buf[len] = '\0';
   return buf;
}

/* test with random buffer sizes to ensure we parse whole keys and values when
 * reads pause and resume in the middle of tokens */
static void
test_bson_json_read_buffering(void)
{
   bson_t **bsons;
   mcommon_string_append_t json;
   bson_error_t error;
   bson_t bson_out = BSON_INITIALIZER;
   int i;
   unsigned int seed = 42;
   int n_docs, docs_idx;
   int n_elems, elem_idx;
   char key[25];
   char val[25];
   bson_json_reader_t *reader;
   int r;

   mcommon_string_new_as_append(&json);

   /* parse between 1 and 10 JSON objects */
   for (n_docs = 1; n_docs < 10; n_docs++) {
      /* do 50 trials */
      for (i = 0; i < 50; i++) {
         bsons = bson_malloc(n_docs * sizeof(bson_t *));
         for (docs_idx = 0; docs_idx < n_docs; docs_idx++) {
            /* a BSON document with up to 10 strings and numbers */
            bsons[docs_idx] = bson_new();
            n_elems = RAND_R(&seed) % 5;
            for (elem_idx = 0; elem_idx < n_elems; elem_idx++) {
               bson_append_utf8(
                  bsons[docs_idx], rand_str(sizeof key, &seed, key), -1, rand_str(sizeof val, &seed, val), -1);

               bson_append_int32(bsons[docs_idx], rand_str(sizeof key, &seed, key), -1, RAND_R(&seed) % INT32_MAX);
            }

            /* append the BSON document's JSON representation to "json" */
            BSON_ASSERT(
               mcommon_json_append_bson_document(&json, bsons[docs_idx], BSON_JSON_MODE_LEGACY, BSON_MAX_RECURSION));
         }

         reader =
            bson_json_data_reader_new(true /* "allow_multiple" is unused */, (size_t)RAND_R(&seed) % 100 /* bufsize*/);

         bson_json_data_reader_ingest(
            reader, (uint8_t *)mcommon_str_from_append(&json), mcommon_strlen_from_append(&json));

         for (docs_idx = 0; docs_idx < n_docs; docs_idx++) {
            bson_reinit(&bson_out);
            r = bson_json_reader_read(reader, &bson_out, &error);
            if (r == -1) {
               fprintf(stderr, "%s\n", error.message);
               abort();
            }

            BSON_ASSERT(r);
            bson_eq_bson(&bson_out, bsons[docs_idx]);
         }

         /* finished parsing */
         ASSERT_CMPINT(0, ==, bson_json_reader_read(reader, &bson_out, &error));

         bson_json_reader_destroy(reader);
         mcommon_string_from_append_clear(&json);

         for (docs_idx = 0; docs_idx < n_docs; docs_idx++) {
            bson_destroy(bsons[docs_idx]);
         }

         bson_free(bsons);
      }
   }

   mcommon_string_from_append_destroy(&json);
   bson_destroy(&bson_out);
}

static void
_test_bson_json_read_compare(const char *json, int size, ...)
{
   bson_error_t error = {0};
   bson_json_reader_t *reader;
   va_list ap;
   int r;
   bson_t *compare;
   bson_t bson = BSON_INITIALIZER;

   reader = bson_json_data_reader_new((size == 1), size);
   bson_json_data_reader_ingest(reader, (uint8_t *)json, strlen(json));

   va_start(ap, size);

   while ((r = bson_json_reader_read(reader, &bson, &error))) {
      if (r == -1) {
         fprintf(stderr, "%s\n", error.message);
         abort();
      }

      compare = va_arg(ap, bson_t *);

      BSON_ASSERT(compare);

      bson_eq_bson(&bson, compare);

      bson_destroy(compare);

      bson_reinit(&bson);
   }

   va_end(ap);

   bson_json_reader_destroy(reader);
   bson_destroy(&bson);
}

static void
test_bson_json_read(void)
{
   char *json = bson_strdup_printf("%s { \"after\": \"b\" } { \"twice\" : true }", json_with_all_types());

   bson_oid_t oid;
   bson_t *first, *second, *third;

   bson_oid_init_from_string(&oid, "000000000000000000000000");

   first = bson_copy(bson_with_all_types());
   second = BCON_NEW("after", "b");
   third = BCON_NEW("twice", BCON_BOOL(true));

   _test_bson_json_read_compare(json, 5, first, second, third, NULL);
   bson_free(json);
}

static void
test_bson_json_read_invalid_base64(void)
{
   const char *bad_json = "{ \"x\": { \"$binary\": {\"subType\": \"00\", "
                          "\"base64\": \"\x30\x30\x30\x30\xcd\x8d\x79\" }}}";
   bson_error_t error = {0};

   BSON_ASSERT(!bson_new_from_json((uint8_t *)bad_json, -1, &error));
   ASSERT_ERROR_CONTAINS(error,
                         BSON_ERROR_JSON,
                         BSON_JSON_ERROR_READ_INVALID_PARAM,
                         "Invalid input string \"\x30\x30\x30\x30\xcd\x8d\x79\", looking for "
                         "base64-encoded binary");
}

static void
test_bson_json_read_raw_utf8(void)
{
   bson_t *bson;
   bson_iter_t iter;

   bson = bson_new_from_json((const uint8_t *)"{\"" EU "\": \"" EU "\"}", -1, NULL);
   ASSERT(bson);
   ASSERT(bson_iter_init_find(&iter, bson, EU));
   ASSERT_CMPSTR(bson_iter_key(&iter), EU);
   ASSERT_CMPSTR(bson_iter_utf8(&iter, NULL), EU);
   ASSERT(!bson_iter_next(&iter));

   bson_destroy(bson);
}

static void
test_bson_json_read_corrupt_utf8(void)
{
   const char *bad_key = "{ \"\x80\" : \"a\"}";
   const char *bad_value = "{ \"a\" : \"\x80\"}";
   bson_error_t error = {0};

   BSON_ASSERT(!bson_new_from_json((uint8_t *)bad_key, -1, &error));
   ASSERT_ERROR_CONTAINS(error, BSON_ERROR_JSON, BSON_JSON_ERROR_READ_CORRUPT_JS, "invalid bytes in UTF8 string");

   memset(&error, 0, sizeof error);

   BSON_ASSERT(!bson_new_from_json((uint8_t *)bad_value, -1, &error));
   ASSERT_ERROR_CONTAINS(error, BSON_ERROR_JSON, BSON_JSON_ERROR_READ_CORRUPT_JS, "invalid bytes in UTF8 string");
}


/* exercise early exit from _bson_as_json_visit_document/array, CDRIVER-2541 */
static void
test_bson_json_read_corrupt_document(void)
{
   /* like {a: {a: "\x80"}}, the value is invalid UTF-8 */
   const char bad_doc[] = "\x16\x00\x00\x00"                     /* length */
                          "\x03\x61\x00"                         /* subdoc field with key "a" */
                          "\x0e\x00\x00\x00"                     /* length of subdoc in bytes */
                          "\x02\x61\x00\x02\x00\x00\x00\x80\x00" /* a: "\x80" */
                          "\x00";                                /* terminator */

   /* like {a: ["\x80"]}, the inner value is invalid UTF-8 */
   const char bad_array[] = "\x16\x00\x00\x00"         /* length */
                            "\x04\x61\x00"             /* array field with key "a" */
                            "\x0e\x00\x00\x00"         /* length of array in bytes */
                            "\x02\x30\x00"             /* key "0" */
                            "\x02\x00\x00\x00\x80\x00" /* string "\x80" */
                            "\x00";                    /* terminator */

   bson_t bson;
   BSON_ASSERT(bson_init_static(&bson, (uint8_t *)bad_doc, sizeof(bad_doc)));
   BSON_ASSERT(!bson_as_legacy_extended_json(&bson, NULL));
   BSON_ASSERT(bson_init_static(&bson, (uint8_t *)bad_array, sizeof(bad_array)));
   BSON_ASSERT(!bson_as_legacy_extended_json(&bson, NULL));
}


static void
test_bson_json_read_decimal128(void)
{
   const char *json = "{ \"decimal\" : { \"$numberDecimal\" : \"123.5\" }}";
   bson_decimal128_t dec;
   bson_t *doc;

   bson_decimal128_from_string("123.5", &dec);
   doc = BCON_NEW("decimal", BCON_DECIMAL128(&dec));

   _test_bson_json_read_compare(json, 5, doc, NULL);
}


static void
test_bson_json_read_dbpointer(void)
{
   bson_t b;
   bson_error_t error;
   bool r;

   /* must have both $ref and $id, $id must be ObjectId */
   const char *invalid[] = {"{\"p\": {\"$dbPointer\": {\"$ref\": \"db.collection\"}}",
                            "$dbPointer requires both $id and $ref",

                            "{\"p\": {\"$dbPointer\": {\"$ref\": \"db.collection\", \"$id\": 1}}",
                            "$dbPointer.$id must be like {\"$oid\": ...\"}",

                            "{\"p\": {\"$dbPointer\": {\"$id\": {"
                            "\"$oid\": \"57e193d7a9cc81b4027498b1\"}}}}",
                            "$dbPointer requires both $id and $ref",

                            "{\"p\": {\"$dbPointer\": {}}}",
                            "Empty $dbPointer",

                            NULL};

   const char **p;

   for (p = invalid; *p; p += 2) {
      r = bson_init_from_json(&b, *p, -1, &error);
      BSON_ASSERT(!r);
      ASSERT_ERROR_CONTAINS(error, BSON_ERROR_JSON, BSON_JSON_ERROR_READ_INVALID_PARAM, *(p + 1));
   }
}


static void
test_bson_json_read_legacy_regex(void)
{
   bson_t b;
   bson_error_t error;
   bool r;
   const char *pattern;
   const char *flags;

   r = bson_init_from_json(&b, "{\"a\": {\"$regex\": \"abc\", \"$options\": \"ix\"}}", -1, &error);
   ASSERT_OR_PRINT(r, error);
   BCON_EXTRACT(&b, "a", BCONE_REGEX(pattern, flags));
   ASSERT_CMPSTR(pattern, "abc");
   ASSERT_CMPSTR(flags, "ix");

   bson_destroy(&b);

   r = bson_init_from_json(&b, "{\"a\": {\"$regex\": \"abc\"}}", -1, &error);
   ASSERT_OR_PRINT(r, error);
   BCON_EXTRACT(&b, "a", BCONE_REGEX(pattern, flags));
   ASSERT_CMPSTR(pattern, "abc");
   ASSERT_CMPSTR(flags, "");

   bson_destroy(&b);

   r = bson_init_from_json(&b, "{\"a\": {\"$options\": \"ix\"}}", -1, &error);
   BSON_ASSERT(!r);
   ASSERT_ERROR_CONTAINS(
      error, BSON_ERROR_JSON, BSON_JSON_ERROR_READ_INVALID_PARAM, "Missing \"$regex\" after \"$options\"");
}


static void
test_bson_json_read_regex_options_order(void)
{
   bson_t b;
   bson_error_t error;
   bool r;
   const char *pattern;
   const char *flags;

   r = bson_init_from_json(&b, "{\"a\": {\"$regex\": \"\", \"$options\": \"ism\"}}", -1, &error);
   ASSERT_OR_PRINT(r, error);
   BCON_EXTRACT(&b, "a", BCONE_REGEX(pattern, flags));
   ASSERT_CMPSTR(flags, "ims");

   bson_destroy(&b);

   r = bson_init_from_json(&b, "{\"a\": {\"$regex\": \"\", \"$options\": \"misl\"}}", -1, &error);
   ASSERT_OR_PRINT(r, error);
   BCON_EXTRACT(&b, "a", BCONE_REGEX(pattern, flags));
   ASSERT_CMPSTR(flags, "ilms");

   bson_destroy(&b);
}


static void
test_bson_json_read_binary(void)
{
   bson_error_t error;
   bson_t b;
   bool r;
   bson_subtype_t subtype;
   uint32_t len;
   const uint8_t *binary;

   r = bson_init_from_json(&b, "{\"b\": {\"$binary\": {\"base64\": \"Zm9v\", \"subType\": \"05\"}}}", -1, &error);
   ASSERT_OR_PRINT(r, error);

   BCON_EXTRACT(&b, "b", BCONE_BIN(subtype, binary, len));
   ASSERT_CMPINT((int)subtype, ==, 5);
   ASSERT_CMPUINT32(len, ==, (uint32_t)3);
   ASSERT_CMPSTR((const char *)binary, "foo");

   bson_destroy(&b);

   r = bson_init_from_json(&b, "{\"b\": {\"$binary\": {\"subType\": \"05\", \"base64\": \"Zm9v\"}}}", -1, &error);
   ASSERT_OR_PRINT(r, error);
   BCON_EXTRACT(&b, "b", BCONE_BIN(subtype, binary, len));
   ASSERT_CMPINT((int)subtype, ==, 5);
   ASSERT_CMPUINT32(len, ==, (uint32_t)3);
   ASSERT_CMPSTR((const char *)binary, "foo");

   bson_destroy(&b);

   /* no base64 */
   r = bson_init_from_json(&b, "{\"b\": {\"$binary\": {\"subType\": \"5\"}}}", -1, &error);
   BSON_ASSERT(!r);
   ASSERT_ERROR_CONTAINS(
      error, BSON_ERROR_JSON, BSON_JSON_ERROR_READ_INVALID_PARAM, "Missing \"base64\" after \"subType\"");

   memset(&error, 0, sizeof error);

   /* no subType */
   r = bson_init_from_json(&b, "{\"b\": {\"$binary\": {\"base64\": \"Zm9v\"}}}", -1, &error);
   BSON_ASSERT(!r);
   ASSERT_ERROR_CONTAINS(
      error, BSON_ERROR_JSON, BSON_JSON_ERROR_READ_INVALID_PARAM, "Missing \"subType\" after \"base64\"");
}


static void
test_bson_json_read_legacy_binary(void)
{
   const char *jsons[] = {"{\"x\": {\"$binary\": \"Zm9v\", \"$type\": \"05\"}}",
                          "{\"x\": {\"$type\": \"05\", \"$binary\": \"Zm9v\"}}",
                          NULL};

   const char **json;
   bson_error_t error;
   bson_t b;
   bool r;
   bson_subtype_t subtype;
   uint32_t len;
   const uint8_t *binary;

   for (json = jsons; *json; json++) {
      r = bson_init_from_json(&b, *json, -1, &error);

      ASSERT_OR_PRINT(r, error);
      BCON_EXTRACT(&b, "x", BCONE_BIN(subtype, binary, len));
      ASSERT_CMPINT((int)subtype, ==, 5);
      ASSERT_CMPUINT32(len, ==, (uint32_t)3);
      ASSERT_CMPSTR((const char *)binary, "foo");

      bson_destroy(&b);
   }
}


static void
test_json_reader_new_from_file(void)
{
   const char *path = BSON_JSON_DIR "/test.json";
   const char *bar;
   const bson_oid_t *oid;
   bson_oid_t oid_expected;
   int32_t one;
   bson_t bson = BSON_INITIALIZER;
   bson_json_reader_t *reader;
   bson_error_t error;

   reader = bson_json_reader_new_from_file(path, &error);
   BSON_ASSERT(reader);

   /* read two documents */
   ASSERT_CMPINT(1, ==, bson_json_reader_read(reader, &bson, &error));

   BCON_EXTRACT(&bson, "foo", BCONE_UTF8(bar), "a", BCONE_INT32(one));
   ASSERT_CMPSTR("bar", bar);
   ASSERT_CMPINT(1, ==, one);

   bson_reinit(&bson);
   ASSERT_CMPINT(1, ==, bson_json_reader_read(reader, &bson, &error));

   BCON_EXTRACT(&bson, "_id", BCONE_OID(oid));
   bson_oid_init_from_string(&oid_expected, "aabbccddeeff001122334455");
   BSON_ASSERT(bson_oid_equal(&oid_expected, oid));

   bson_destroy(&bson);
   bson_json_reader_destroy(reader);
}

static void
test_json_reader_new_from_bad_path(void)
{
   const char *bad_path = BSON_JSON_DIR "/does-not-exist";
   bson_json_reader_t *reader;
   bson_error_t error;

   reader = bson_json_reader_new_from_file(bad_path, &error);
   BSON_ASSERT(!reader);
   ASSERT_CMPINT(BSON_ERROR_READER, ==, error.domain);
   ASSERT_CMPINT(BSON_ERROR_READER_BADFD, ==, error.code);
}

static void
test_bson_json_error(const char *json, int domain, bson_json_error_code_t code)
{
   bson_error_t error;
   bson_t *bson;

   bson = bson_new_from_json((const uint8_t *)json, strlen(json), &error);

   BSON_ASSERT(!bson);
   BSON_ASSERT(mlib_cmp(error.domain, ==, domain));
   BSON_ASSERT(error.code == code);
}

static void
test_bson_json_read_empty(void)
{
   bson_error_t error;
   bson_t *bson_ptr;
   bson_t bson;

   bson_ptr = bson_new_from_json((uint8_t *)"", 0, &error);
   BSON_ASSERT(!bson_ptr);
   ASSERT_ERROR_CONTAINS(error, BSON_ERROR_JSON, BSON_JSON_ERROR_READ_INVALID_PARAM, "Empty JSON string");

   memset(&error, 0, sizeof error);
   bson_init_from_json(&bson, "", 0, &error);
   ASSERT_ERROR_CONTAINS(error, BSON_ERROR_JSON, BSON_JSON_ERROR_READ_INVALID_PARAM, "Empty JSON string");
}

static void
test_bson_json_read_missing_complex(void)
{
   const char *json = "{ \n\
      \"foo\" : { \n\
         \"$options\" : \"ism\"\n\
      }\n\
   }";

   test_bson_json_error(json, BSON_ERROR_JSON, BSON_JSON_ERROR_READ_INVALID_PARAM);
}

static void
test_bson_json_read_invalid_binary(void)
{
   bson_error_t error;
   const char *json = "{ "
                      " \"bin\" : { \"$binary\" : \"invalid\", \"$type\" : \"80\" } }";
   bson_t b;
   bool r;

   r = bson_init_from_json(&b, json, -1, &error);
   BSON_ASSERT(!r);
}

static void
test_bson_json_read_invalid_json(void)
{
   const char *json = "{ \n\
      \"foo\" : { \n\
   }";
   bson_t *b;

   test_bson_json_error(json, BSON_ERROR_JSON, BSON_JSON_ERROR_READ_CORRUPT_JS);

   b = bson_new_from_json((uint8_t *)"1", 1, NULL);
   BSON_ASSERT(!b);

   b = bson_new_from_json((uint8_t *)"*", 1, NULL);
   BSON_ASSERT(!b);

   b = bson_new_from_json((uint8_t *)"", 0, NULL);
   BSON_ASSERT(!b);

   b = bson_new_from_json((uint8_t *)"asdfasdf", -1, NULL);
   BSON_ASSERT(!b);

   b = bson_new_from_json((uint8_t *)"{\"a\":*}", -1, NULL);
   BSON_ASSERT(!b);
}

static ssize_t
test_bson_json_read_bad_cb_helper(void *_ctx, uint8_t *buf, size_t len)
{
   BSON_UNUSED(_ctx);
   BSON_UNUSED(buf);
   BSON_UNUSED(len);

   return -1;
}

static void
test_bson_json_read_bad_cb(void)
{
   bson_error_t error;
   bson_json_reader_t *reader;
   int r;
   bson_t bson = BSON_INITIALIZER;

   reader = bson_json_reader_new(NULL, &test_bson_json_read_bad_cb_helper, NULL, false, 0);

   r = bson_json_reader_read(reader, &bson, &error);

   BSON_ASSERT(r == -1);
   BSON_ASSERT(error.domain == BSON_ERROR_JSON);
   BSON_ASSERT(error.code == BSON_JSON_ERROR_READ_CB_FAILURE);

   bson_json_reader_destroy(reader);
   bson_destroy(&bson);
}

static ssize_t
test_bson_json_read_invalid_helper(void *ctx, uint8_t *buf, size_t len)
{
   BSON_UNUSED(ctx);
   BSON_ASSERT(len);
   *buf = 0x80; /* no UTF-8 sequence can start with 0x80 */
   return 1;
}

static void
test_bson_json_read_invalid(void)
{
   bson_error_t error;
   bson_json_reader_t *reader;
   int r;
   bson_t bson = BSON_INITIALIZER;

   reader = bson_json_reader_new(NULL, test_bson_json_read_invalid_helper, NULL, false, 0);

   r = bson_json_reader_read(reader, &bson, &error);

   BSON_ASSERT(r == -1);
   BSON_ASSERT(error.domain == BSON_ERROR_JSON);
   BSON_ASSERT(error.code == BSON_JSON_ERROR_READ_CORRUPT_JS);

   bson_json_reader_destroy(reader);
   bson_destroy(&bson);
}

static void
test_bson_json_number_long(void)
{
   bson_error_t error;
   bson_iter_t iter;
   bson_t b;
   bool r;

   r = bson_init_from_json(&b, "{\"key\": {\"$numberLong\": \"4611686018427387904\"}}", -1, &error);
   if (!r)
      fprintf(stderr, "%s\n", error.message);
   BSON_ASSERT(r);
   BSON_ASSERT(bson_iter_init(&iter, &b));
   BSON_ASSERT(bson_iter_find(&iter, "key"));
   BSON_ASSERT(BSON_ITER_HOLDS_INT64(&iter));
   BSON_ASSERT(bson_iter_int64(&iter) == 4611686018427387904LL);
   bson_destroy(&b);

   BSON_ASSERT(!bson_init_from_json(&b, "{\"key\": {\"$numberLong\": \"461168601abcd\"}}", -1, &error));
   BSON_ASSERT(!bson_init_from_json(&b, "{\"key\": {\"$numberLong\": \"461168601abcd\"}}", -1, &error));

   /* INT64_MAX */
   r = bson_init_from_json(&b, "{\"x\": {\"$numberLong\": \"9223372036854775807\"}}", -1, &error);
   ASSERT_OR_PRINT(r, error);
   BSON_ASSERT(bson_iter_init_find(&iter, &b, "x"));
   BSON_ASSERT(BSON_ITER_HOLDS_INT64(&iter));
   ASSERT_CMPINT64(bson_iter_int64(&iter), ==, (int64_t)INT64_MAX);
   bson_destroy(&b);

   /* INT64_MIN */
   r = bson_init_from_json(&b, "{\"x\": {\"$numberLong\": \"-9223372036854775808\"}}", -1, &error);
   ASSERT_OR_PRINT(r, error);

   BSON_ASSERT(bson_iter_init_find(&iter, &b, "x"));
   BSON_ASSERT(BSON_ITER_HOLDS_INT64(&iter));
   ASSERT_CMPINT64(bson_iter_int64(&iter), ==, (int64_t)INT64_MIN);
   bson_destroy(&b);

   /* INT64_MAX + 1 */
   r = bson_init_from_json(&b, "{\"x\": {\"$numberLong\": \"9223372036854775808\"}}", -1, &error);

   BSON_ASSERT(!r);
   ASSERT_ERROR_CONTAINS(
      error, BSON_ERROR_JSON, BSON_JSON_ERROR_READ_INVALID_PARAM, "Number \"9223372036854775808\" is out of range");

   memset(&error, 0, sizeof error);

   /* INT64_MIN - 1 */
   r = bson_init_from_json(&b, "{\"x\": {\"$numberLong\": \"-9223372036854775809\"}}", -1, &error);

   BSON_ASSERT(!r);
   ASSERT_ERROR_CONTAINS(
      error, BSON_ERROR_JSON, BSON_JSON_ERROR_READ_INVALID_PARAM, "Number \"-9223372036854775809\" is out of range");

   memset(&error, 0, sizeof error);

   r = bson_init_from_json(&b, "{\"x\": {\"$numberLong\": \"10000000000000000000\"}}", -1, &error);

   BSON_ASSERT(!r);
   ASSERT_ERROR_CONTAINS(
      error, BSON_ERROR_JSON, BSON_JSON_ERROR_READ_INVALID_PARAM, "Number \"10000000000000000000\" is out of range");

   memset(&error, 0, sizeof error);

   /* INT64_MIN - 2 */
   r = bson_init_from_json(&b, "{\"x\": -10000000000000000000}", -1, &error);

   BSON_ASSERT(!r);
   ASSERT_ERROR_CONTAINS(
      error, BSON_ERROR_JSON, BSON_JSON_ERROR_READ_INVALID_PARAM, "Number \"-10000000000000000000\" is out of range");
}

static void
test_bson_json_number_long_zero(void)
{
   bson_error_t error;
   bson_iter_t iter;
   const char *json = "{ \"key\": { \"$numberLong\": \"0\" }}";
   bson_t b;
   bool r;

   r = bson_init_from_json(&b, json, -1, &error);
   if (!r)
      fprintf(stderr, "%s\n", error.message);
   BSON_ASSERT(r);
   BSON_ASSERT(bson_iter_init(&iter, &b));
   BSON_ASSERT(bson_iter_find(&iter, "key"));
   BSON_ASSERT(BSON_ITER_HOLDS_INT64(&iter));
   BSON_ASSERT(bson_iter_int64(&iter) == 0);
   bson_destroy(&b);
}

static void
test_bson_json_code(void)
{
   const char *json_code = "{\"a\": {\"$code\": \"b\"}}";
   bson_t *bson_code = BCON_NEW("a", BCON_CODE("b"));

   const char *json_code_w_nulls = "{\"a\": {\"$code\": \"b\\u0000c\\u0000\"}}";
   bson_t *bson_code_w_nulls = BCON_NEW("a", BCON_CODE("b\0c\0"));

   const char *json_code_w_scope = "{\"a\": {\"$code\": \"b\", "
                                   "         \"$scope\": {\"var\": 1}}}";
   bson_t *scope1 = BCON_NEW("var", BCON_INT32(1));
   bson_t *bson_code_w_scope = BCON_NEW("a", BCON_CODEWSCOPE("b", scope1));

   const char *json_code_w_scope_special = "{\"a\": {\"$code\": \"b\", "
                                           "         \"$scope\": {\"var2\": {\"$numberLong\": \"2\"}}}}";
   bson_t *scope2 = BCON_NEW("var2", BCON_INT64(2));
   bson_t *bson_code_w_scope_special = BCON_NEW("a", BCON_CODEWSCOPE("b", scope2));

   const char *json_2_codes_w_scope = "{\"a\": {\"$code\": \"b\", "
                                      "         \"$scope\": {\"var\": 1}},"
                                      " \"c\": {\"$code\": \"d\", "
                                      "         \"$scope\": {\"var2\": {\"$numberLong\": \"2\"}}}}";
   bson_t *bson_2_codes_w_scope = BCON_NEW("a", BCON_CODEWSCOPE("b", scope1), "c", BCON_CODEWSCOPE("d", scope2));

   const char *json_code_then_regular = "{\"a\": {\"$code\": \"b\", "
                                        "         \"$scope\": {\"var\": 1}},"
                                        " \"c\": {\"key1\": \"value\", "
                                        "         \"subdoc\": {\"key2\": \"value2\"}}}";

   bson_t *bson_code_then_regular = BCON_NEW("a",
                                             BCON_CODEWSCOPE("b", scope1),
                                             "c",
                                             "{",
                                             "key1",
                                             BCON_UTF8("value"),
                                             "subdoc",
                                             "{",
                                             "key2",
                                             BCON_UTF8("value2"),
                                             "}",
                                             "}");

   const char *json_code_w_scope_reverse = "{\"a\": {\"$scope\": {\"var\": 1}, "
                                           "         \"$code\": \"b\"}}";
   bson_t *bson_code_w_scope_reverse = BCON_NEW("a", BCON_CODEWSCOPE("b", scope1));

   const char *json_code_w_scope_nest = "{\"a\": {\"$code\": \"b\", "
                                        "         \"$scope\": {\"var\": {}}}}";
   bson_t *scope3 = BCON_NEW("var", "{", "}");
   bson_t *bson_code_w_scope_nest = BCON_NEW("a", BCON_CODEWSCOPE("b", scope3));

   const char *json_code_w_scope_nest_deep = "{\"a\": {\"$code\": \"b\", "
                                             "         \"$scope\": {\"arr\": [1, 2], \"d\": {},"
                                             "                      \"n\": {\"$numberLong\": \"1\"},"
                                             "                      \"d2\": {\"x\": 1, \"d3\": {\"z\": 3}}}}}";

   bson_t *scope_deep = BCON_NEW("arr",
                                 "[",
                                 BCON_INT32(1),
                                 BCON_INT32(2),
                                 "]",
                                 "d",
                                 "{",
                                 "}",
                                 "n",
                                 BCON_INT64(1),
                                 "d2",
                                 "{",
                                 "x",
                                 BCON_INT32(1),
                                 "d3",
                                 "{",
                                 "z",
                                 BCON_INT32(3),
                                 "}",
                                 "}");

   bson_t *bson_code_w_scope_nest_deep = BCON_NEW("a", BCON_CODEWSCOPE("b", scope_deep));

   const char *json_code_w_empty_scope = "{\"a\": {\"$code\": \"b\", "
                                         "         \"$scope\": {}}}";
   bson_t *empty = bson_new();
   bson_t *bson_code_w_empty_scope = BCON_NEW("a", BCON_CODEWSCOPE("b", empty));

   const char *json_code_in_scope = "{\"a\": {\"$code\": \"b\", "
                                    "         \"$scope\": {\"x\": {\"$code\": \"c\"}}}}";

   bson_t *code_in_scope = BCON_NEW("x", "{", "$code", BCON_UTF8("c"), "}");
   bson_t *bson_code_in_scope = BCON_NEW("a", BCON_CODEWSCOPE("b", code_in_scope));

   typedef struct {
      const char *json;
      bson_t *expected_bson;
   } code_test_t;

   code_test_t tests[] = {
      {json_code, bson_code},
      {json_code_w_nulls, bson_code_w_nulls},
      {json_code_w_scope, bson_code_w_scope},
      {json_code_w_scope_special, bson_code_w_scope_special},
      {json_code_then_regular, bson_code_then_regular},
      {json_2_codes_w_scope, bson_2_codes_w_scope},
      {json_code_w_scope_reverse, bson_code_w_scope_reverse},
      {json_code_w_scope_nest, bson_code_w_scope_nest},
      {json_code_w_scope_nest_deep, bson_code_w_scope_nest_deep},
      {json_code_w_empty_scope, bson_code_w_empty_scope},
      {json_code_in_scope, bson_code_in_scope},
   };

   int n_tests = sizeof(tests) / sizeof(code_test_t);
   int i;
   bson_t b;
   bool r;
   bson_error_t error;

   for (i = 0; i < n_tests; i++) {
      r = bson_init_from_json(&b, tests[i].json, -1, &error);
      if (!r) {
         fprintf(stderr, "%s\n", error.message);
      }

      BSON_ASSERT(r);
      bson_eq_bson(&b, tests[i].expected_bson);
      bson_destroy(&b);
   }

   for (i = 0; i < n_tests; i++) {
      bson_destroy(tests[i].expected_bson);
   }

   bson_destroy(scope1);
   bson_destroy(scope2);
   bson_destroy(scope3);
   bson_destroy(scope_deep);
   bson_destroy(code_in_scope);
   bson_destroy(empty);
}

static void
test_bson_json_code_errors(void)
{
   bson_error_t error;
   bson_t b;
   bool r;
   size_t i;

   typedef struct {
      const char *json;
      const char *error_message;
   } code_error_test_t;

   code_error_test_t tests[] = {
      {"{\"a\": {\"$scope\": {}}", "Missing $code after $scope"},
      {"{\"a\": {\"$scope\": {}, \"$x\": 1}", "Invalid key \"$x\""},
      {"{\"a\": {\"$scope\": {\"a\": 1}}", "Missing $code after $scope"},
      {"{\"a\": {\"$code\": \"\", \"$scope\": \"a\"}}", "Invalid read of \"a\""},
      {"{\"a\": {\"$code\": \"\", \"$scope\": 1}}", "Unexpected integer 1 in state \"IN_BSON_TYPE_SCOPE_STARTMAP\""},
      {"{\"a\": {\"$code\": \"\", \"$scope\": []}}", "Invalid read of \"[\""},
      {"{\"a\": {\"$code\": \"\", \"x\": 1}}", "Invalid key \"x\".  Looking for values for type \"code\""},
      {"{\"a\": {\"$code\": \"\", \"$x\": 1}}", "Invalid key \"$x\""},
      {"{\"a\": {\"$code\": \"\", \"$numberLong\": \"1\"}}", "Invalid key \"$numberLong\""},
   };

   for (i = 0; i < sizeof(tests) / (sizeof(code_error_test_t)); i++) {
      r = bson_init_from_json(&b, tests[i].json, -1, &error);
      BSON_ASSERT(!r);
      ASSERT_ERROR_CONTAINS(error, BSON_ERROR_JSON, BSON_JSON_ERROR_READ_INVALID_PARAM, tests[i].error_message);
   }
}

static const bson_oid_t *
oid_zero(void)
{
   static bool initialized = false;
   static bson_oid_t oid;

   if (!initialized) {
      bson_oid_init_from_string(&oid, "000000000000000000000000");
      initialized = true;
   }

   return &oid;
}

static void
test_bson_json_dbref(void)
{
   bson_error_t error;

   const char *json_with_objectid_id = "{ \"key\": {"
                                       "\"$ref\": \"collection\","
                                       "\"$id\": {\"$oid\": \"000000000000000000000000\"}}}";

   bson_t *bson_with_objectid_id =
      BCON_NEW("key", "{", "$ref", BCON_UTF8("collection"), "$id", BCON_OID(oid_zero()), "}");

   const char *json_with_int_id = "{ \"key\": {"
                                  "\"$ref\": \"collection\","
                                  "\"$id\": 1}}";

   bson_t *bson_with_int_id = BCON_NEW("key", "{", "$ref", BCON_UTF8("collection"), "$id", BCON_INT32(1), "}");

   const char *json_with_subdoc_id = "{ \"key\": {"
                                     "\"$ref\": \"collection\","
                                     "\"$id\": {\"a\": 1}}}";

   bson_t *bson_with_subdoc_id =
      BCON_NEW("key", "{", "$ref", BCON_UTF8("collection"), "$id", "{", "a", BCON_INT32(1), "}", "}");

   const char *json_with_metadata = "{ \"key\": {"
                                    "\"$ref\": \"collection\","
                                    "\"$id\": 1,"
                                    "\"meta\": true}}";

   bson_t *bson_with_metadata =
      BCON_NEW("key", "{", "$ref", BCON_UTF8("collection"), "$id", BCON_INT32(1), "meta", BCON_BOOL(true), "}");

   const char *json_with_db = "{ \"key\": {"
                              "\"$ref\": \"collection\","
                              "\"$id\": 1,"
                              "\"$db\": \"database\"}}";

   bson_t *bson_with_db =
      BCON_NEW("key", "{", "$ref", BCON_UTF8("collection"), "$id", BCON_INT32(1), "$db", BCON_UTF8("database"), "}");

   /* Note: the following examples are not valid DBRefs but are intended to test
    * that the Extended JSON parser leaves such documents as-is. */
   const char *json_with_missing_ref = "{\"key\": {\"$id\": 1}}";

   bson_t *bson_with_missing_ref = BCON_NEW("key", "{", "$id", BCON_INT32(1), "}");

   const char *json_with_missing_id = "{\"key\": {\"$ref\": \"collection\"}}";

   bson_t *bson_with_missing_id = BCON_NEW("key", "{", "$ref", BCON_UTF8("collection"), "}");

   const char *json_with_int_ref = "{\"key\": {\"$ref\": 1, \"$id\": 1}}";

   bson_t *bson_with_int_ref = BCON_NEW("key", "{", "$ref", BCON_INT32(1), "$id", BCON_INT32(1), "}");

   const char *json_with_int_db = "{ \"key\": {"
                                  "\"$ref\": \"collection\","
                                  "\"$id\": 1,"
                                  "\"$db\": 1}}";

   bson_t *bson_with_int_db =
      BCON_NEW("key", "{", "$ref", BCON_UTF8("collection"), "$id", BCON_INT32(1), "$db", BCON_INT32(1), "}");

   bson_t b;
   bool r;

   typedef struct {
      const char *json;
      bson_t *expected_bson;
   } dbref_test_t;

   dbref_test_t tests[] = {
      {json_with_objectid_id, bson_with_objectid_id},
      {json_with_int_id, bson_with_int_id},
      {json_with_subdoc_id, bson_with_subdoc_id},
      {json_with_metadata, bson_with_metadata},
      {json_with_db, bson_with_db},
      {json_with_missing_ref, bson_with_missing_ref},
      {json_with_missing_id, bson_with_missing_id},
      {json_with_int_ref, bson_with_int_ref},
      {json_with_int_db, bson_with_int_db},
   };

   int n_tests = sizeof(tests) / sizeof(dbref_test_t);
   int i;

   for (i = 0; i < n_tests; i++) {
      r = bson_init_from_json(&b, tests[i].json, -1, &error);
      if (!r) {
         fprintf(stderr, "%s\n", error.message);
      }

      BSON_ASSERT(r);
      bson_eq_bson(&b, tests[i].expected_bson);
      bson_destroy(&b);
   }

   for (i = 0; i < n_tests; i++) {
      bson_destroy(tests[i].expected_bson);
   }
}

static void
test_bson_json_uescape(void)
{
   bson_error_t error;
   bson_t b;
   bool r;

   const char *euro = "{ \"euro\": \"\\u20AC\"}";
   bson_t *bson_euro = BCON_NEW("euro", BCON_UTF8("\xE2\x82\xAC"));

   const char *crlf = "{ \"crlf\": \"\\r\\n\"}";
   bson_t *bson_crlf = BCON_NEW("crlf", BCON_UTF8("\r\n"));

   const char *quote = "{ \"quote\": \"\\\"\"}";
   bson_t *bson_quote = BCON_NEW("quote", BCON_UTF8("\""));

   const char *backslash = "{ \"backslash\": \"\\\\\"}";
   bson_t *bson_backslash = BCON_NEW("backslash", BCON_UTF8("\\"));

   const char *empty = "{ \"\": \"\"}";
   bson_t *bson_empty = BCON_NEW("", BCON_UTF8(""));

   const char *escapes = "{ \"escapes\": \"\\f\\b\\t\"}";
   bson_t *bson_escapes = BCON_NEW("escapes", BCON_UTF8("\f\b\t"));

   const char *nil_byte = "{ \"nil\": \"\\u0000\"}";
   bson_t *bson_nil_byte = bson_new(); /* we'll append "\0" to it, below */

   typedef struct {
      const char *json;
      bson_t *expected_bson;
   } uencode_test_t;

   uencode_test_t tests[] = {
      {euro, bson_euro},
      {crlf, bson_crlf},
      {quote, bson_quote},
      {backslash, bson_backslash},
      {empty, bson_empty},
      {escapes, bson_escapes},
      {nil_byte, bson_nil_byte},
   };

   int n_tests = sizeof(tests) / sizeof(uencode_test_t);
   int i;

   bson_append_utf8(bson_nil_byte, "nil", -1, "\0", 1);

   for (i = 0; i < n_tests; i++) {
      r = bson_init_from_json(&b, tests[i].json, -1, &error);

      if (!r) {
         fprintf(stderr, "%s\n", error.message);
      }

      BSON_ASSERT(r);
      bson_eq_bson(&b, tests[i].expected_bson);
      bson_destroy(&b);
   }

   for (i = 0; i < n_tests; i++) {
      bson_destroy(tests[i].expected_bson);
   }
}

static void
test_bson_json_uescape_key(void)
{
   bson_error_t error;
   bson_t b;
   bool r;

   bson_t *bson_euro = BCON_NEW("\xE2\x82\xAC", BCON_UTF8("euro"));

   r = bson_init_from_json(&b, "{ \"\\u20AC\": \"euro\"}", -1, &error);
   BSON_ASSERT(r);
   bson_eq_bson(&b, bson_euro);

   bson_destroy(&b);
   bson_destroy(bson_euro);
}

static void
test_bson_json_uescape_bad(void)
{
   bson_error_t error;
   bson_t b;
   bool r;

   r = bson_init_from_json(&b, "{ \"bad\": \"\\u1\"}", -1, &error);
   BSON_ASSERT(!r);
   ASSERT_ERROR_CONTAINS(error, BSON_ERROR_JSON, BSON_JSON_ERROR_READ_CORRUPT_JS, "UESCAPE_TOOSHORT");
}


static void
test_bson_json_int32(void)
{
   bson_t b;
   bson_iter_t iter;
   bson_error_t error;

   /* INT32_MAX */
   ASSERT_OR_PRINT(bson_init_from_json(&b, "{ \"x\": 2147483647 }", -1, &error), error);

   BSON_ASSERT(bson_iter_init_find(&iter, &b, "x"));
   BSON_ASSERT(BSON_ITER_HOLDS_INT32(&iter));
   ASSERT_CMPINT32(bson_iter_int32(&iter), ==, (int32_t)2147483647LL);
   bson_destroy(&b);

   /* INT32_MIN */
   ASSERT_OR_PRINT(bson_init_from_json(&b, "{ \"x\": -2147483648 }", -1, &error), error);

   BSON_ASSERT(bson_iter_init_find(&iter, &b, "x"));
   BSON_ASSERT(BSON_ITER_HOLDS_INT32(&iter));
   ASSERT_CMPINT32(bson_iter_int32(&iter), ==, (int32_t)-2147483648LL);
   bson_destroy(&b);

   /* INT32_MAX + 1 */
   ASSERT_OR_PRINT(bson_init_from_json(&b, "{ \"x\": 2147483648 }", -1, &error), error);

   BSON_ASSERT(bson_iter_init_find(&iter, &b, "x"));
   BSON_ASSERT(BSON_ITER_HOLDS_INT64(&iter));
   ASSERT_CMPINT64(bson_iter_int64(&iter), ==, (int64_t)2147483648LL);
   bson_destroy(&b);

   /* INT32_MIN - 1 */
   ASSERT_OR_PRINT(bson_init_from_json(&b, "{ \"x\": -2147483649 }", -1, &error), error);

   BSON_ASSERT(bson_iter_init_find(&iter, &b, "x"));
   BSON_ASSERT(BSON_ITER_HOLDS_INT64(&iter));
   ASSERT_CMPINT64(bson_iter_int64(&iter), ==, (int64_t)-2147483649LL);
   bson_destroy(&b);
}


static void
test_bson_json_int64(void)
{
   bson_t b;
   bson_iter_t iter;
   bson_error_t error;

   /* INT64_MAX */
   ASSERT_OR_PRINT(bson_init_from_json(&b, "{ \"x\": 9223372036854775807 }", -1, &error), error);

   BSON_ASSERT(bson_iter_init_find(&iter, &b, "x"));
   BSON_ASSERT(BSON_ITER_HOLDS_INT64(&iter));
   ASSERT_CMPINT64(bson_iter_int64(&iter), ==, (int64_t)9223372036854775807LL);
   bson_destroy(&b);

   /* INT64_MIN */
   ASSERT_OR_PRINT(bson_init_from_json(&b, "{ \"x\": -9223372036854775808 }", -1, &error), error);

   BSON_ASSERT(bson_iter_init_find(&iter, &b, "x"));
   BSON_ASSERT(BSON_ITER_HOLDS_INT64(&iter));
   ASSERT_CMPINT64(bson_iter_int64(&iter), ==, (int64_t)INT64_MIN);
   bson_destroy(&b);

   /* INT64_MAX + 1 */
   BSON_ASSERT(!bson_init_from_json(&b, "{ \"x\": 9223372036854775808 }", -1, &error));
   ASSERT_ERROR_CONTAINS(
      error, BSON_ERROR_JSON, BSON_JSON_ERROR_READ_INVALID_PARAM, "Number \"9223372036854775808\" is out of range");

   memset(&error, 0, sizeof error);

   /* INT64_MIN - 1 */
   BSON_ASSERT(!bson_init_from_json(&b, "{ \"x\": -9223372036854775809 }", -1, &error));
   ASSERT_ERROR_CONTAINS(
      error, BSON_ERROR_JSON, BSON_JSON_ERROR_READ_INVALID_PARAM, "Number \"-9223372036854775809\" is out of range");

   memset(&error, 0, sizeof error);

   BSON_ASSERT(!bson_init_from_json(&b, "{ \"x\": 10000000000000000000 }", -1, &error));
   ASSERT_ERROR_CONTAINS(
      error, BSON_ERROR_JSON, BSON_JSON_ERROR_READ_INVALID_PARAM, "Number \"10000000000000000000\" is out of range");

   memset(&error, 0, sizeof error);

   /* INT64_MIN - 2 */
   BSON_ASSERT(!bson_init_from_json(&b, "{ \"x\": -10000000000000000000 }", -1, &error));

   ASSERT_ERROR_CONTAINS(
      error, BSON_ERROR_JSON, BSON_JSON_ERROR_READ_INVALID_PARAM, "Number \"-10000000000000000000\" is out of range");
}


static void
test_bson_json_double(void)
{
   bson_t b;
   bson_error_t error;
   bson_iter_t iter;

   ASSERT_OR_PRINT(bson_init_from_json(&b, "{ \"x\": 1 }", -1, &error), error);

   BSON_ASSERT(bson_iter_init_find(&iter, &b, "x"));
   BSON_ASSERT(BSON_ITER_HOLDS_INT32(&iter));
   ASSERT_CMPINT32(bson_iter_int32(&iter), ==, (int32_t)1);
   bson_destroy(&b);

   ASSERT_OR_PRINT(bson_init_from_json(&b, "{ \"x\": 4294967296 }", -1, &error), error);

   BSON_ASSERT(bson_iter_init_find(&iter, &b, "x"));
   BSON_ASSERT(BSON_ITER_HOLDS_INT64(&iter));
   ASSERT_CMPINT64(bson_iter_int64(&iter), ==, (int64_t)4294967296);
   bson_destroy(&b);

   ASSERT_OR_PRINT(bson_init_from_json(&b, "{ \"x\": 1.0 }", -1, &error), error);

   BSON_ASSERT(bson_iter_init_find(&iter, &b, "x"));
   BSON_ASSERT(BSON_ITER_HOLDS_DOUBLE(&iter));
   ASSERT_CMPDOUBLE(bson_iter_double(&iter), ==, 1.0);
   bson_destroy(&b);

   ASSERT_OR_PRINT(bson_init_from_json(&b, "{ \"x\": 0.0 }", -1, &error), error);

   BSON_ASSERT(bson_iter_init_find(&iter, &b, "x"));
   BSON_ASSERT(BSON_ITER_HOLDS_DOUBLE(&iter));
   ASSERT_CMPDOUBLE(bson_iter_double(&iter), ==, 0.0);
   bson_destroy(&b);

   ASSERT_OR_PRINT(bson_init_from_json(&b, "{ \"x\": -0.0 }", -1, &error), error);

   BSON_ASSERT(bson_iter_init_find(&iter, &b, "x"));
   BSON_ASSERT(BSON_ITER_HOLDS_DOUBLE(&iter));
   ASSERT_CMPDOUBLE(bson_iter_double(&iter), ==, 0.0);

/* check that "x" is -0.0. signbit not available on FreeBSD or VS 2010 or AIX
 */
#if !defined(__FreeBSD__) && (!defined(_MSC_VER) || (_MSC_VER >= 1800)) && (!defined(_AIX))
   BSON_ASSERT(signbit(bson_iter_double(&iter)));
#endif

   bson_destroy(&b);
}


static void
test_bson_json_double_overflow(void)
{
   const char *nums[] = {"2e400", "-2e400", NULL};
   const char **p;
   char *j;
   bson_error_t error;
   bson_t b;

   for (p = nums; *p; p++) {
      j = bson_strdup_printf("{ \"d\" : %s }", *p);
      BSON_ASSERT(!bson_init_from_json(&b, j, -1, &error));
      ASSERT_ERROR_CONTAINS(error, BSON_ERROR_JSON, BSON_JSON_ERROR_READ_INVALID_PARAM, "out of range");

      bson_free(j);
      memset(&error, 0, sizeof error);

      /* same test with canonical Extended JSON */
      j = bson_strdup_printf("{ \"d\" : { \"$numberDouble\" : \"%s\" } }", *p);
      BSON_ASSERT(!bson_init_from_json(&b, j, -1, &error));
      ASSERT_ERROR_CONTAINS(error, BSON_ERROR_JSON, BSON_JSON_ERROR_READ_INVALID_PARAM, "out of range");

      bson_free(j);
   }
}


static void
test_bson_json_nan(void)
{
   bson_error_t error;
   bson_t b;
   double d;

   /* should parse any capitalization of NaN */
   const char *jsons[] = {"{ \"d\": NaN }",
                          "{ \"d\": nAn }",
                          "{ \"d\": {\"$numberDouble\": \"NaN\" } }",
                          "{ \"d\": {\"$numberDouble\": \"nAn\" } }",
                          NULL};

   /* test our patch to JSONSL that updates its state while parsing "n..." */
   const char *bad[] = {"{ \"d\": NaNn }",
                        "{ \"d\": nul }",
                        "{ \"d\": nulll }",
                        "{ \"d\": nulll }",
                        "{ \"d\": foo }",
                        "{ \"d\": NULL }",
                        "{ \"d\": nall }",
                        NULL};

   const char *partial[] = {"{ \"d\": nu", "{ \"d\": na", "{ \"d\": n", NULL};
   const char **j;

   for (j = jsons; *j; j++) {
      BSON_ASSERT(bson_init_from_json(&b, *j, -1, &error));
      BSON_ASSERT(BCON_EXTRACT(&b, "d", BCONE_DOUBLE(d)));
      BSON_ASSERT(d != d);
      bson_destroy(&b);
   }

   for (j = bad; *j; j++) {
      BSON_ASSERT(!bson_init_from_json(&b, *j, -1, &error));
      ASSERT_ERROR_CONTAINS(error, BSON_ERROR_JSON, BSON_JSON_ERROR_READ_CORRUPT_JS, "Got parse error at");
      memset(&error, 0, sizeof error);
   }

   for (j = partial; *j; j++) {
      BSON_ASSERT(!bson_init_from_json(&b, *j, -1, &error));
      ASSERT_ERROR_CONTAINS(error, BSON_ERROR_JSON, BSON_JSON_ERROR_READ_CORRUPT_JS, "Incomplete JSON");
      memset(&error, 0, sizeof error);
   }
}

static void
test_bson_json_infinity(void)
{
   bson_error_t error;
   bson_t b;
   double d;

   /* should parse any capitalization of Infinity */
   const char *infs[] = {"{ \"d\": Infinity }", "{ \"d\": infinity }", "{ \"d\": inFINIty }", NULL};

   const char *negs[] = {"{ \"d\": -Infinity }", "{ \"d\": -infinity }", "{ \"d\": -inFINIty }", NULL};

   const char *bad[] = {"{ \"d\": Infinityy }",
                        "{ \"d\": Infinit }",
                        "{ \"d\": -Infinityy }",
                        "{ \"d\": -Infinit }",
                        "{ \"d\": infinityy }",
                        "{ \"d\": infinit }",
                        "{ \"d\": -infinityy }",
                        "{ \"d\": -infinit }",
                        NULL};

   const char *partial[] = {"{ \"d\": In", "{ \"d\": I", "{ \"d\": i", NULL};
   const char **j;

   for (j = infs; *j; j++) {
      BSON_ASSERT(bson_init_from_json(&b, *j, -1, &error));
      BSON_ASSERT(BCON_EXTRACT(&b, "d", BCONE_DOUBLE(d)));
      /* Infinite */
      BSON_ASSERT(d == d && ((d - d) != (d - d)));
      bson_destroy(&b);
   }

   for (j = negs; *j; j++) {
      BSON_ASSERT(bson_init_from_json(&b, *j, -1, &error));
      BSON_ASSERT(BCON_EXTRACT(&b, "d", BCONE_DOUBLE(d)));
      /* Infinite */
      BSON_ASSERT(d == d && ((d - d) != (d - d)));
      BSON_ASSERT(d < 0);
      bson_destroy(&b);
   }

   for (j = bad; *j; j++) {
      BSON_ASSERT(!bson_init_from_json(&b, *j, -1, &error));
      ASSERT_ERROR_CONTAINS(error, BSON_ERROR_JSON, BSON_JSON_ERROR_READ_CORRUPT_JS, "Got parse error at");
      memset(&error, 0, sizeof error);
   }

   for (j = partial; *j; j++) {
      BSON_ASSERT(!bson_init_from_json(&b, *j, -1, &error));
      ASSERT_ERROR_CONTAINS(error, BSON_ERROR_JSON, BSON_JSON_ERROR_READ_CORRUPT_JS, "Incomplete JSON");
      memset(&error, 0, sizeof error);
   }
}


static void
test_bson_json_null(void)
{
   bson_error_t error;
   bson_t b;

   const char *json = "{ \"x\": null }";
   BSON_ASSERT(bson_init_from_json(&b, json, -1, &error));
   BSON_ASSERT(BCON_EXTRACT(&b, "x", BCONE_NULL));
   bson_destroy(&b);
}


static void
test_bson_json_empty_final_object(void)
{
   const char *json = "{\"a\": {\"b\": {}}}";
   bson_t *bson = BCON_NEW("a", "{", "b", "{", "}", "}");
   bson_t b;
   bool r;
   bson_error_t error;

   r = bson_init_from_json(&b, json, -1, &error);
   if (!r) {
      fprintf(stderr, "%s\n", error.message);
   }

   BSON_ASSERT(r);
   bson_eq_bson(&b, bson);

   bson_destroy(&b);
   bson_destroy(bson);
}

static void
test_bson_json_number_decimal(void)
{
   bson_error_t error;
   bson_iter_t iter;
   bson_decimal128_t decimal128;
   const char *json = "{ \"key\" : { \"$numberDecimal\": \"11\" }}";
   bson_t b;
   bool r;

   r = bson_init_from_json(&b, json, -1, &error);
   if (!r)
      fprintf(stderr, "%s\n", error.message);
   BSON_ASSERT(r);
   BSON_ASSERT(bson_iter_init(&iter, &b));
   BSON_ASSERT(bson_iter_find(&iter, "key"));
   BSON_ASSERT(BSON_ITER_HOLDS_DECIMAL128(&iter));
   bson_iter_decimal128(&iter, &decimal128);
   BSON_ASSERT(decimal128.low == 11);
   BSON_ASSERT(decimal128.high == 0x3040000000000000ULL);
   bson_destroy(&b);
}

static void
test_bson_json_inc(void)
{
   /* test that reproduces a bug with special mode checking.  Specifically,
    * mistaking '$inc' for '$id'
    *
    * From https://github.com/mongodb/mongo-c-driver/issues/62
    */
   bson_error_t error;
   const char *json = "{ \"$inc\" : { \"ref\" : 1 } }";
   bson_t b;
   bool r;

   r = bson_init_from_json(&b, json, -1, &error);
   if (!r)
      fprintf(stderr, "%s\n", error.message);
   BSON_ASSERT(r);
   bson_destroy(&b);
}

static void
test_bson_json_array(void)
{
   bson_error_t error;
   const char *json = "[ 0, 1, 2, 3 ]";
   bson_t b, compare;
   bool r;

   bson_init(&compare);
   bson_append_int32(&compare, "0", 1, 0);
   bson_append_int32(&compare, "1", 1, 1);
   bson_append_int32(&compare, "2", 1, 2);
   bson_append_int32(&compare, "3", 1, 3);

   r = bson_init_from_json(&b, json, -1, &error);
   if (!r)
      fprintf(stderr, "%s\n", error.message);
   BSON_ASSERT(r);

   bson_eq_bson(&b, &compare);
   bson_destroy(&compare);
   bson_destroy(&b);
}

static void
test_bson_json_array_single(void)
{
   bson_error_t error;
   const char *json = "[ 0 ]";
   bson_t b, compare;
   bool r;

   bson_init(&compare);
   bson_append_int32(&compare, "0", 1, 0);

   r = bson_init_from_json(&b, json, -1, &error);
   if (!r)
      fprintf(stderr, "%s\n", error.message);
   BSON_ASSERT(r);

   bson_eq_bson(&b, &compare);
   bson_destroy(&compare);
   bson_destroy(&b);
}

static void
test_bson_json_array_int64(void)
{
   bson_error_t error;
   const char *json = "[ { \"$numberLong\" : \"123\" },"
                      "  { \"$numberLong\" : \"42\" } ]";
   bson_t b, compare;
   bool r;

   bson_init(&compare);
   bson_append_int64(&compare, "0", 1, 123);
   bson_append_int64(&compare, "1", 1, 42);

   r = bson_init_from_json(&b, json, -1, &error);
   if (!r)
      fprintf(stderr, "%s\n", error.message);
   BSON_ASSERT(r);

   bson_eq_bson(&b, &compare);
   bson_destroy(&compare);
   bson_destroy(&b);
}

static void
test_bson_json_array_subdoc(void)
{
   bson_error_t error;
   const char *json = "[ { \"a\" : 123 } ]";
   bson_t b, compare, subdoc;
   bool r;

   bson_init(&compare);
   bson_init(&subdoc);
   bson_append_int32(&subdoc, "a", 1, 123);
   bson_append_document(&compare, "0", 1, &subdoc);

   r = bson_init_from_json(&b, json, -1, &error);
   if (!r)
      fprintf(stderr, "%s\n", error.message);
   BSON_ASSERT(r);

   bson_eq_bson(&b, &compare);
   bson_destroy(&subdoc);
   bson_destroy(&compare);
   bson_destroy(&b);
}

static void
test_bson_json_merge_multiple(void)
{
   bson_error_t error;
   bson_t *b = bson_new_from_json((const uint8_t *)"{\"a\" : 1}, {\"b\" : 2}", -1, &error);
   ASSERT_OR_PRINT(b, error);

   bson_t *compare = bson_new_from_json((const uint8_t *)BSON_STR({"a" : 1, "b" : 2}), -1, &error);

   bson_eq_bson(b, compare);
   bson_destroy(b);
   bson_destroy(compare);
}

static void
test_bson_json_extra_chars(void)
{
   bson_error_t error;
   {
      bson_t *b = bson_new_from_json((const uint8_t *)"{\"a\": 1}abc", -1, &error);
      ASSERT(b == NULL);
      ASSERT_ERROR_CONTAINS(error, BSON_ERROR_JSON, BSON_JSON_ERROR_READ_CORRUPT_JS, "Got parse error at \"a\"");
   }

   {
      bson_t *b = bson_new_from_json((const uint8_t *)"{\"a\" : 1}{abc,[],{},123", -1, &error);
      ASSERT_OR_PRINT(b, error);

      bson_t *compare = bson_new_from_json((const uint8_t *)"{\"a\" : 1}", -1, &error);

      bson_eq_bson(b, compare);
      bson_destroy(b);
      bson_destroy(compare);
   }
}

static void
test_bson_json_date_check(const char *json, int64_t value)
{
   bson_error_t error = {0};
   bson_t b, compare;
   bool r;

   bson_init(&compare);

   BSON_APPEND_DATE_TIME(&compare, "dt", value);

   r = bson_init_from_json(&b, json, -1, &error);

   if (!r) {
      fprintf(stderr, "%s\n", error.message);
   }

   BSON_ASSERT(r);

   bson_eq_bson(&b, &compare);
   bson_destroy(&compare);
   bson_destroy(&b);
}


static void
test_bson_json_date_error(const char *json, const char *msg)
{
   bson_error_t error = {0};
   bson_t b;
   bool r;
   r = bson_init_from_json(&b, json, -1, &error);
   if (r) {
      fprintf(stderr, "parsing %s should fail\n", json);
   }
   BSON_ASSERT(!r);
   ASSERT_ERROR_CONTAINS(error, BSON_ERROR_JSON, BSON_JSON_ERROR_READ_INVALID_PARAM, msg);
}

static void
test_bson_json_date(void)
{
   /* to make a timestamp, "python3 -m pip install iso8601" and in Python 3:
    * iso8601.parse_date("2016-12-13T12:34:56.123Z").timestamp() * 1000
    */
   test_bson_json_date_check("{ \"dt\" : { \"$date\" : \"2016-12-13T12:34:56.123Z\" } }", 1481632496123);
   test_bson_json_date_check("{ \"dt\" : { \"$date\" : \"1970-01-01T00:00:00.000Z\" } }", 0);
   test_bson_json_date_check("{ \"dt\" : { \"$date\" : \"1969-12-31T16:00:00.000-0800\" } }", 0);

   test_bson_json_date_check("{ \"dt\" : { \"$date\" : \"1970-01-01T01:00:00.000+01:00\" } }", 0);
   test_bson_json_date_error("{ \"dt\" : { \"$date\" : \"1970-01-01T01:30:\" } }",
                             "reached end of date while looking for seconds");
   test_bson_json_date_error("{ \"dt\" : { \"$date\" : \"1970-01-01T01:00:+01:00\" } }", "seconds is required");
   test_bson_json_date_error("{ \"dt\" : { \"$date\" : \"1970-01-01T01:30:00.\" } }",
                             "reached end of date while looking for milliseconds");
   test_bson_json_date_error("{ \"dt\" : { \"$date\" : \"1970-01-01T01:00:00.+01:00\" } }", "milliseconds is required");
   test_bson_json_date_error("{ \"dt\" : { \"$date\" : \"foo-01-01T00:00:00.000Z\" } }", "year must be an integer");
   test_bson_json_date_error("{ \"dt\" : { \"$date\" : \"1970-foo-01T00:00:00.000Z\" } }", "month must be an integer");
   test_bson_json_date_error("{ \"dt\" : { \"$date\" : \"1970-01-fooT00:00:00.000Z\" } }", "day must be an integer");
   test_bson_json_date_error("{ \"dt\" : { \"$date\" : \"1970-01-01Tfoo:00:00.000Z\" } }", "hour must be an integer");
   test_bson_json_date_error("{ \"dt\" : { \"$date\" : \"1970-01-01T00:foo:00.000Z\" } }", "minute must be an integer");
   test_bson_json_date_error("{ \"dt\" : { \"$date\" : \"1970-01-01T00:00:foo.000Z\" } }",
                             "seconds must be an integer");
   test_bson_json_date_error("{ \"dt\" : { \"$date\" : \"1970-01-01T01:00:00.000\" } }", "timezone is required");
   test_bson_json_date_error("{ \"dt\" : { \"$date\" : \"1970-01-01T01:00:00.000X\" } }", "timezone is required");
   test_bson_json_date_error("{ \"dt\" : { \"$date\" : \"1970-01-01T01:00:00.000+1\" } }", "could not parse timezone");
   test_bson_json_date_error("{ \"dt\" : { \"$date\" : \"1970-01-01T01:00:00.000+xx00\" } }",
                             "could not parse timezone");
   test_bson_json_date_error("{ \"dt\" : { \"$date\" : \"1970-01-01T01:00:00.000+2400\" } }",
                             "timezone hour must be at most 23");
   test_bson_json_date_error("{ \"dt\" : { \"$date\" : \"1970-01-01T01:00:00.000-2400\" } }",
                             "timezone hour must be at most 23");
   test_bson_json_date_error("{ \"dt\" : { \"$date\" : \"1970-01-01T01:00:00.000+0060\" } }",
                             "timezone minute must be at most 59");
   test_bson_json_date_error("{ \"dt\" : { \"$date\" : \"1970-01-01T01:00:00.000-0060\" } }",
                             "timezone minute must be at most 59");
}


static void
test_bson_json_date_legacy(void)
{
   test_bson_json_date_check("{ \"dt\" : { \"$date\" : 0 } }", 0);
   test_bson_json_date_check("{ \"dt\" : { \"$date\" : 1356351330500 } }", 1356351330500);
   test_bson_json_date_check("{ \"dt\" : { \"$date\" : -62135593139000 } }", -62135593139000);

   /* INT64_MAX */
   test_bson_json_date_check("{ \"dt\" : { \"$date\" : 9223372036854775807 } }", INT64_MAX);

   /* INT64_MIN */
   test_bson_json_date_check("{ \"dt\" : { \"$date\" : -9223372036854775808 } }", INT64_MIN);

   /* INT64_MAX + 1 */
   test_bson_json_date_error("{ \"dt\" : { \"$date\" : 9223372036854775808 } }",
                             "Number \"9223372036854775808\" is out of range");

   /* INT64_MIN - 1 */
   test_bson_json_date_error("{ \"dt\" : { \"$date\" : -9223372036854775809 } }",
                             "Number \"-9223372036854775809\" is out of range");

   test_bson_json_date_error("{ \"dt\" : { \"$date\" : 10000000000000000000 } }",
                             "Number \"10000000000000000000\" is out of range");

   test_bson_json_date_error("{ \"dt\" : { \"$date\" : -10000000000000000000 } }",
                             "Number \"-10000000000000000000\" is out of range");
}


static void
test_bson_json_date_numberlong(void)
{
   test_bson_json_date_check("{ \"dt\" : { \"$date\" : {\"$numberLong\": \"0\" } } }", 0);
   test_bson_json_date_check("{ \"dt\" : { \"$date\" : {\"$numberLong\": \"1356351330500\" } } }", 1356351330500);
   test_bson_json_date_check("{ \"dt\" : { \"$date\" : { \"$numberLong\" : \"-62135593139000\" } } }", -62135593139000);

   /* INT64_MAX */
   test_bson_json_date_check("{ \"dt\" : { \"$date\" : { \"$numberLong\" "
                             ": \"9223372036854775807\" } } }",
                             INT64_MAX);

   /* INT64_MIN */
   test_bson_json_date_check("{ \"dt\" : { \"$date\" : { \"$numberLong\" "
                             ": \"-9223372036854775808\" } } }",
                             INT64_MIN);

   /* INT64_MAX + 1 */
   test_bson_json_date_error("{ \"dt\" : { \"$date\" : { \"$numberLong\" "
                             ": \"9223372036854775808\" } } }",
                             "Number \"9223372036854775808\" is out of range");

   /* INT64_MIN - 1 */
   test_bson_json_date_error("{ \"dt\" : { \"$date\" : { \"$numberLong\" "
                             ": \"-9223372036854775809\" } } }",
                             "Number \"-9223372036854775809\" is out of range");

   test_bson_json_date_error("{ \"dt\" : { \"$date\" : { \"$numberLong\" "
                             ": \"10000000000000000000\" } } }",
                             "Number \"10000000000000000000\" is out of range");

   test_bson_json_date_error("{ \"dt\" : { \"$date\" : { \"$numberLong\" "
                             ": \"-10000000000000000000\" } } }",
                             "Number \"-10000000000000000000\" is out of range");
}


static void
test_bson_json_timestamp(void)
{
   bson_error_t error = {0};
   bson_t b, compare;
   bool r;

   bson_init(&compare);

   BSON_APPEND_TIMESTAMP(&compare, "ts", (uint32_t)1486785977, (uint32_t)1234);

   r = bson_init_from_json(&b, "{\"ts\": {\"$timestamp\": {\"t\": 1486785977, \"i\": 1234}}}", -1, &error);

   if (!r) {
      fprintf(stderr, "%s\n", error.message);
   }

   BSON_ASSERT(r);

   bson_eq_bson(&b, &compare);
   bson_destroy(&compare);
   bson_destroy(&b);
}


static void
test_bson_array_as_legacy_json(void)
{
   bson_t d = BSON_INITIALIZER;
   size_t len;
   char *str;

   str = bson_array_as_legacy_extended_json(&d, &len);
   ASSERT_CMPSTR(str, "[ ]");
   ASSERT_CMPSIZE_T(len, ==, 3u);
   bson_free(str);

   BSON_APPEND_INT32(&d, "0", 1);
   str = bson_array_as_legacy_extended_json(&d, &len);
   ASSERT_CMPSTR(str, "[ 1 ]");
   ASSERT_CMPSIZE_T(len, ==, 5u);
   bson_free(str);

   /* test corrupted bson */
   BSON_APPEND_UTF8(&d, "1", "\x80"); /* bad UTF-8 */
   str = bson_array_as_legacy_extended_json(&d, &len);
   BSON_ASSERT(!str);
   BSON_ASSERT(!len);

   bson_destroy(&d);
}

static void
test_bson_array_as_relaxed_json(void)
{
   bson_t d = BSON_INITIALIZER;
   size_t len;
   char *str;

   str = bson_array_as_relaxed_extended_json(&d, &len);
   ASSERT_CMPSTR(str, "[ ]");
   ASSERT_CMPSIZE_T(len, ==, 3u);
   bson_free(str);

   BSON_APPEND_INT32(&d, "0", 1);
   str = bson_array_as_relaxed_extended_json(&d, &len);
   ASSERT_CMPSTR(str, "[ 1 ]");
   ASSERT_CMPSIZE_T(len, ==, 5u);
   bson_free(str);

   /* test corrupted bson */
   BSON_APPEND_UTF8(&d, "1", "\x80"); /* bad UTF-8 */
   str = bson_array_as_relaxed_extended_json(&d, &len);
   BSON_ASSERT(!str);
   BSON_ASSERT(!len);

   bson_destroy(&d);
}

static void
test_bson_array_as_canonical_json(void)
{
   bson_t d = BSON_INITIALIZER;
   size_t len;
   char *str;

   str = bson_array_as_canonical_extended_json(&d, &len);
   ASSERT_CMPSTR(str, "[ ]");
   ASSERT_CMPSIZE_T(len, ==, 3u);
   bson_free(str);

   BSON_APPEND_INT32(&d, "0", 1);
   str = bson_array_as_canonical_extended_json(&d, &len);
   ASSERT_CMPSTR(str, "[ { \"$numberInt\" : \"1\" } ]");
   ASSERT_CMPSIZE_T(len, ==, 26u);
   bson_free(str);

   /* test corrupted bson */
   BSON_APPEND_UTF8(&d, "1", "\x80"); /* bad UTF-8 */
   str = bson_array_as_canonical_extended_json(&d, &len);
   BSON_ASSERT(!str);
   BSON_ASSERT(!len);

   bson_destroy(&d);
}

static void
test_bson_as_json_spacing(void)
{
   bson_t d = BSON_INITIALIZER;
   size_t len;
   char *str;

   str = bson_as_legacy_extended_json(&d, &len);
   BSON_ASSERT(0 == strcmp(str, "{ }"));
   BSON_ASSERT(len == 3);
   bson_free(str);

   BSON_APPEND_INT32(&d, "a", 1);
   str = bson_as_legacy_extended_json(&d, &len);
   BSON_ASSERT(0 == strcmp(str, "{ \"a\" : 1 }"));
   BSON_ASSERT(len == 11);
   bson_free(str);

   bson_destroy(&d);
}


static void
test_bson_json_errors(void)
{
   typedef const char *test_bson_json_error_t[2];
   test_bson_json_error_t tests[] = {
      {BSON_STR({"x" : {"$numberLong" : 1}}), "Invalid state for integer read: INT64"},
      {BSON_STR({"x" : {"$binary" : 1}}), "Unexpected integer 1 in type \"binary\""},
      {BSON_STR({"x" : {"$numberInt" : true}}), "Invalid read of boolean in state IN_BSON_TYPE"},
      {BSON_STR({"x" : {"$dbPointer" : true}}), "Invalid read of boolean in state IN_BSON_TYPE_DBPOINTER_STARTMAP"},
      {BSON_STR([ {"$code" : {}} ]), "Unexpected nested object value for \"$code\" key"},
      {BSON_STR([ {"$scope" : {}, "$dbPointer" : {"" : {"$code" : ""}}} ]),
       "Invalid key \"$dbPointer\".  Looking for values for type \"code\", got \"dbpointer\""},
      {BSON_STR({"x" : {"$numberInt" : "8589934592"}}), "Invalid input string \"8589934592\", looking for INT32"},
      {0},
   };

   bson_error_t error;
   test_bson_json_error_t *p;

   for (p = tests; *(p[0]); p++) {
      BSON_ASSERT(!bson_new_from_json((const uint8_t *)(*p)[0], -1, &error));
      ASSERT_ERROR_CONTAINS(error, BSON_ERROR_JSON, BSON_JSON_ERROR_READ_INVALID_PARAM, (*p)[1]);
   }
}


static void
test_bson_integer_width(void)
{
   const char *sd = "{\"v\":-1234567890123, \"x\":12345678901234}";
   char *match;
   bson_error_t err;
   bson_t *bs = bson_new_from_json((const uint8_t *)sd, strlen(sd), &err);

   match = bson_as_legacy_extended_json(bs, 0);
   ASSERT_CMPSTR(match, "{ \"v\" : -1234567890123, \"x\" : 12345678901234 }");

   bson_free(match);
   bson_destroy(bs);
}


static void
test_bson_json_null_in_str(void)
{
   const char bad_json[] = "{\"a\":\"\0\"}";
   const char cdriver2305[] = "{\"\0";
   bson_error_t err;
   ASSERT(!bson_new_from_json((const uint8_t *)bad_json, sizeof(bad_json) - 1, &err));
   ASSERT_ERROR_CONTAINS(err, BSON_ERROR_JSON, BSON_JSON_ERROR_READ_CORRUPT_JS, "Got parse error");
   memset(&err, 0, sizeof err);
   ASSERT(!bson_new_from_json((const uint8_t *)cdriver2305, sizeof(cdriver2305) - 1, &err));
   ASSERT_ERROR_CONTAINS(err, BSON_ERROR_JSON, BSON_JSON_ERROR_READ_CORRUPT_JS, "Got parse error");
}

static char *
_single_to_double(const char *json)
{
   char *copy;
   char *to_ret = copy = bson_malloc(strlen(json) + 1);
   strcpy(copy, json);
   while (*copy) {
      if (*copy == '\'') {
         *copy = '\"';
      } else {
         copy++;
      }
   }
   return to_ret;
}

static void
_test_json_produces_multiple(const char *json_in, int err_expected, ...)
{
   bson_t bson_in = BSON_INITIALIZER;
   bson_t *bson_expected;
   bson_error_t err = {0};
   int ret;
   va_list ap;
   char *json = _single_to_double(json_in);
   bson_json_reader_t *reader = bson_json_data_reader_new(false /* ignored */, 512 /* buffer size */);

   va_start(ap, err_expected);

   bson_json_data_reader_ingest(reader, (uint8_t *)json, strlen(json));
   while ((ret = bson_json_reader_read(reader, &bson_in, &err)) == 1) {
      bson_expected = va_arg(ap, bson_t *);
      if (!bson_expected) {
         fprintf(stderr, "Extra bson documents returned for input %s\n", json);
         abort();
      }
      if (bson_compare(&bson_in, bson_expected) != 0) {
         char *expect = bson_as_relaxed_extended_json(bson_expected, NULL);
         char *in = bson_as_relaxed_extended_json(&bson_in, NULL);
         fprintf(stderr, "Got %s, but expected %s for input %s\n", expect, in, json);
         bson_free(expect);
         bson_free(in);
         abort();
      }
      bson_destroy(bson_expected);
      bson_reinit(&bson_in);
   }

   if (ret == 0) {
      ASSERT(!err_expected);
   } else {
      ASSERT_OR_PRINT(err_expected, err);
   }

   if (va_arg(ap, bson_t *) != NULL) {
      fprintf(stderr, "Not all bson docs matched for input %s\n", json);
      abort();
   }

   va_end(ap);

   bson_json_reader_destroy(reader);
   bson_destroy(&bson_in);
   bson_free(json);
}

#define TEST_JSON_PRODUCES_MULTIPLE(_json, _has_err, ...) \
   _test_json_produces_multiple(_json, _has_err, __VA_ARGS__, NULL)

static void
test_bson_as_json_multi_object(void)
{
   /* Test malformed documents that produce errors */
   TEST_JSON_PRODUCES_MULTIPLE("[],[{''", 1, NULL);

   TEST_JSON_PRODUCES_MULTIPLE("{},[{''", 1, NULL);


   /* Test the desired multiple document behavior */
   TEST_JSON_PRODUCES_MULTIPLE("{'a': 1} {'b': 1}", 0, BCON_NEW("a", BCON_INT32(1)), BCON_NEW("b", BCON_INT32(1)));

   TEST_JSON_PRODUCES_MULTIPLE("{}{}{}", 0, bson_new(), bson_new(), bson_new());

   /* Test strange behavior we may consider changing */

   /* Combines both documents into one? */
   TEST_JSON_PRODUCES_MULTIPLE("{'a': 1}, {'b': 1}", 0, BCON_NEW("a", BCON_INT32(1), "b", BCON_INT32(1)));

   TEST_JSON_PRODUCES_MULTIPLE("{},{'a': 1}", 0, BCON_NEW("a", BCON_INT32(1)));

   TEST_JSON_PRODUCES_MULTIPLE("{},{},{'a': 1}", 0, BCON_NEW("a", BCON_INT32(1)));

   TEST_JSON_PRODUCES_MULTIPLE("[],{'a': 1}", 0, BCON_NEW("a", BCON_INT32(1)));

   /* We support a root level array */
   TEST_JSON_PRODUCES_MULTIPLE("[]", 0, bson_new());

   TEST_JSON_PRODUCES_MULTIPLE("[{'x': 0}]", 0, BCON_NEW("0", "{", "x", BCON_INT32(0), "}"));

   /* Yet this fails */
   TEST_JSON_PRODUCES_MULTIPLE("[],[{'a': 1}]", 1, NULL);
}

static void
test_bson_as_json_with_opts(bson_t *bson, bson_json_mode_t mode, int max_len, const char *expected)
{
   bson_json_opts_t *opts = bson_json_opts_new(mode, max_len);
   size_t json_len;
   char *str = bson_as_json_with_opts(bson, &json_len, opts);

   ASSERT_CMPSTR(str, expected);
   ASSERT_CMPSIZE_T(json_len, ==, strlen(expected));

   if (max_len != BSON_MAX_LEN_UNLIMITED) {
      ASSERT(mlib_in_range(size_t, max_len));
      ASSERT_CMPSIZE_T(json_len, <=, (size_t)max_len);
   }

   bson_free(str);
   bson_json_opts_destroy(opts);
}

char *
truncate_string(const char *str, size_t len)
{
   char *truncated;

   truncated = (char *)bson_malloc0(len + 1);
   strncpy(truncated, str, len);
   truncated[len] = '\0';

   return truncated;
}

/* Run multiple tests against a particular bson_t and bson_json_mode_t, with expected output.
 * This test assumes naive string truncation (not UTF-8 preserving) so it's unsuitable
 * when expected json output includes multi-byte UTF-8 sequences. */
static void
run_bson_as_json_with_opts_tests(bson_t *bson, bson_json_mode_t mode, const char *expected)
{
   const size_t ulen = strlen(expected);
   char *truncated;

   BSON_ASSERT(mlib_in_range(int, ulen));
   const int len = (int)ulen;

   /* Test with 0 length (empty string). */
   test_bson_as_json_with_opts(bson, mode, 0, "");

   BSON_ASSERT(INT_MAX - 2 >= len);

   /* Test with a limit that does not truncate the string. */
   test_bson_as_json_with_opts(bson, mode, len + 2, expected);

   /* Test with unlimited length. */
   test_bson_as_json_with_opts(bson, mode, BSON_MAX_LEN_UNLIMITED, expected);

   /* Test every possible limit from 0 to length. */
   for (int i = 0; i < len; i++) {
      truncated = truncate_string(expected, (size_t)i);
      test_bson_as_json_with_opts(bson, mode, i, truncated);
      bson_free(truncated);
   }
}

static void
test_bson_as_json_with_opts_double(void)
{
   bson_t *b;

   b = bson_new();
   BSON_ASSERT(BSON_APPEND_DOUBLE(b, "v", 1.0));

   run_bson_as_json_with_opts_tests(b, BSON_JSON_MODE_CANONICAL, "{ \"v\" : { \"$numberDouble\" : \"1.0\" } }");
   run_bson_as_json_with_opts_tests(b, BSON_JSON_MODE_RELAXED, "{ \"v\" : 1.0 }");

   bson_destroy(b);
}

static void
test_bson_as_json_with_opts_utf8(void)
{
   bson_t *b;

   b = bson_new();
   BSON_ASSERT(BSON_APPEND_UTF8(b, "v", "abcdef"));

   run_bson_as_json_with_opts_tests(b, BSON_JSON_MODE_CANONICAL, "{ \"v\" : \"abcdef\" }");
   run_bson_as_json_with_opts_tests(b, BSON_JSON_MODE_RELAXED, "{ \"v\" : \"abcdef\" }");

   bson_destroy(b);
}

static void
test_bson_as_json_with_opts_document(void)
{
   bson_t *b;
   bson_t nested;

   b = bson_new();
   BSON_ASSERT(BSON_APPEND_DOCUMENT_BEGIN(b, "v", &nested));
   BSON_ASSERT(BSON_APPEND_UTF8(&nested, "v", "abcdef"));
   BSON_ASSERT(bson_append_document_end(b, &nested));
   BSON_ASSERT(BSON_APPEND_UTF8(b, "w", "abcdef"));

   run_bson_as_json_with_opts_tests(
      b, BSON_JSON_MODE_CANONICAL, "{ \"v\" : { \"v\" : \"abcdef\" }, \"w\" : \"abcdef\" }");
   run_bson_as_json_with_opts_tests(
      b, BSON_JSON_MODE_RELAXED, "{ \"v\" : { \"v\" : \"abcdef\" }, \"w\" : \"abcdef\" }");

   bson_destroy(b);
   bson_destroy(&nested);
}

static void
test_bson_as_json_with_opts_array(void)
{
   bson_t *b;
   bson_t nested;

   b = bson_new();
   BSON_ASSERT(BSON_APPEND_ARRAY_BEGIN(b, "v", &nested));
   BSON_ASSERT(BSON_APPEND_UTF8(&nested, "0", "abcdef"));
   BSON_ASSERT(bson_append_array_end(b, &nested));
   BSON_ASSERT(BSON_APPEND_UTF8(b, "w", "abcdef"));

   run_bson_as_json_with_opts_tests(b, BSON_JSON_MODE_CANONICAL, "{ \"v\" : [ \"abcdef\" ], \"w\" : \"abcdef\" }");
   run_bson_as_json_with_opts_tests(b, BSON_JSON_MODE_RELAXED, "{ \"v\" : [ \"abcdef\" ], \"w\" : \"abcdef\" }");

   bson_destroy(b);
   bson_destroy(&nested);
}

static void
test_bson_as_json_with_opts_binary(void)
{
   const uint8_t data[] = {1, 2, 3, 4};
   bson_t *b;

   b = bson_new();
   BSON_ASSERT(BSON_APPEND_BINARY(b, "v", 0, data, sizeof data));

   run_bson_as_json_with_opts_tests(b,
                                    BSON_JSON_MODE_CANONICAL,
                                    "{ \"v\" : { \"$binary\" : { \"base64\" : "
                                    "\"AQIDBA==\", \"subType\" : \"00\" } } }");

   run_bson_as_json_with_opts_tests(b,
                                    BSON_JSON_MODE_RELAXED,
                                    "{ \"v\" : { \"$binary\" : { \"base64\" : "
                                    "\"AQIDBA==\", \"subType\" : \"00\" } } }");

   bson_destroy(b);
}

static void
test_bson_as_json_with_opts_undefined(void)
{
   bson_t *b;

   b = bson_new();
   BSON_ASSERT(BSON_APPEND_UNDEFINED(b, "v"));

   run_bson_as_json_with_opts_tests(b, BSON_JSON_MODE_RELAXED, "{ \"v\" : { \"$undefined\" : true } }");

   run_bson_as_json_with_opts_tests(b, BSON_JSON_MODE_CANONICAL, "{ \"v\" : { \"$undefined\" : true } }");

   bson_destroy(b);
}

static void
test_bson_as_json_with_opts_oid(void)
{
   bson_oid_t oid;
   bson_t *b;

   bson_oid_init_from_string(&oid, "12341234123412abcdababcd");
   b = bson_new();
   BSON_ASSERT(BSON_APPEND_OID(b, "v", &oid));

   run_bson_as_json_with_opts_tests(
      b, BSON_JSON_MODE_RELAXED, "{ \"v\" : { \"$oid\" : \"12341234123412abcdababcd\" } }");

   run_bson_as_json_with_opts_tests(
      b, BSON_JSON_MODE_CANONICAL, "{ \"v\" : { \"$oid\" : \"12341234123412abcdababcd\" } }");

   bson_destroy(b);
}

static void
test_bson_as_json_with_opts_bool(void)
{
   bson_t *b;

   b = bson_new();
   BSON_ASSERT(BSON_APPEND_BOOL(b, "v", false));

   run_bson_as_json_with_opts_tests(b, BSON_JSON_MODE_RELAXED, "{ \"v\" : false }");

   run_bson_as_json_with_opts_tests(b, BSON_JSON_MODE_CANONICAL, "{ \"v\" : false }");

   bson_destroy(b);
}

static void
test_bson_as_json_with_opts_date_time(void)
{
   bson_t *b;

   b = bson_new();
   BSON_ASSERT(BSON_APPEND_DATE_TIME(b, "v", 1602572588123));

   run_bson_as_json_with_opts_tests(
      b, BSON_JSON_MODE_RELAXED, "{ \"v\" : { \"$date\" : \"2020-10-13T07:03:08.123Z\" } }");

   run_bson_as_json_with_opts_tests(
      b, BSON_JSON_MODE_CANONICAL, "{ \"v\" : { \"$date\" : { \"$numberLong\" : \"1602572588123\" } } }");

   bson_destroy(b);
}

static void
test_bson_as_json_with_opts_null(void)
{
   bson_t *b;

   b = bson_new();
   BSON_ASSERT(BSON_APPEND_NULL(b, "v"));

   run_bson_as_json_with_opts_tests(b, BSON_JSON_MODE_RELAXED, "{ \"v\" : null }");

   run_bson_as_json_with_opts_tests(b, BSON_JSON_MODE_CANONICAL, "{ \"v\" : null }");

   bson_destroy(b);
}

static void
test_bson_as_json_with_opts_regex(void)
{
   bson_t *b;

   b = bson_new();
   BSON_ASSERT(BSON_APPEND_REGEX(b, "v", "^abc", "i"));

   run_bson_as_json_with_opts_tests(b,
                                    BSON_JSON_MODE_RELAXED,
                                    "{ \"v\" : { \"$regularExpression\" : { \"pattern\" : \"^abc\", "
                                    "\"options\" : \"i\" } } }");

   run_bson_as_json_with_opts_tests(b,
                                    BSON_JSON_MODE_CANONICAL,
                                    "{ \"v\" : { \"$regularExpression\" : { \"pattern\" : \"^abc\", "
                                    "\"options\" : \"i\" } } }");

   bson_destroy(b);
}

static void
test_bson_as_json_with_opts_dbpointer(void)
{
   bson_oid_t oid;
   bson_t *b;

   bson_oid_init_from_string(&oid, "12341234123412abcdababcd");
   b = bson_new();
   BSON_ASSERT(BSON_APPEND_DBPOINTER(b, "v", "coll", &oid));

   run_bson_as_json_with_opts_tests(b,
                                    BSON_JSON_MODE_RELAXED,
                                    "{ \"v\" : { \"$dbPointer\" : { \"$ref\" : \"coll\", \"$id\" : { "
                                    "\"$oid\" : \"12341234123412abcdababcd\" } } } }");

   run_bson_as_json_with_opts_tests(b,
                                    BSON_JSON_MODE_CANONICAL,
                                    "{ \"v\" : { \"$dbPointer\" : { \"$ref\" : \"coll\", \"$id\" : { "
                                    "\"$oid\" : \"12341234123412abcdababcd\" } } } }");

   bson_destroy(b);
}

static void
test_bson_as_json_with_opts_code(void)
{
   bson_t *b;

   b = bson_new();
   BSON_ASSERT(BSON_APPEND_CODE(b, "v", "function(){}"));

   run_bson_as_json_with_opts_tests(b, BSON_JSON_MODE_RELAXED, "{ \"v\" : { \"$code\" : \"function(){}\" } }");

   run_bson_as_json_with_opts_tests(b, BSON_JSON_MODE_CANONICAL, "{ \"v\" : { \"$code\" : \"function(){}\" } }");

   bson_destroy(b);
}

static void
test_bson_as_json_with_opts_symbol(void)
{
   bson_t *b;

   b = bson_new();
   BSON_ASSERT(BSON_APPEND_SYMBOL(b, "v", "symbol"));

   run_bson_as_json_with_opts_tests(b, BSON_JSON_MODE_RELAXED, "{ \"v\" : { \"$symbol\" : \"symbol\" } }");

   run_bson_as_json_with_opts_tests(b, BSON_JSON_MODE_CANONICAL, "{ \"v\" : { \"$symbol\" : \"symbol\" } }");

   bson_destroy(b);
}

static void
test_bson_as_json_with_opts_codewscope(void)
{
   bson_t *b;
   bson_t *scope;

   scope = bson_new();
   BSON_ASSERT(BSON_APPEND_UTF8(scope, "v", "abcdef"));

   b = bson_new();
   BSON_ASSERT(BSON_APPEND_CODE_WITH_SCOPE(b, "v", "function(){}", scope));

   run_bson_as_json_with_opts_tests(b,
                                    BSON_JSON_MODE_RELAXED,
                                    "{ \"v\" : { \"$code\" : \"function(){}\", "
                                    "\"$scope\" : { \"v\" : \"abcdef\" } } }");

   run_bson_as_json_with_opts_tests(b,
                                    BSON_JSON_MODE_CANONICAL,
                                    "{ \"v\" : { \"$code\" : \"function(){}\", "
                                    "\"$scope\" : { \"v\" : \"abcdef\" } } }");

   bson_destroy(b);
   bson_destroy(scope);
}

static void
test_bson_as_json_with_opts_int32(void)
{
   bson_t *b;

   b = bson_new();
   BSON_ASSERT(BSON_APPEND_INT32(b, "v", 461394000));

   run_bson_as_json_with_opts_tests(b, BSON_JSON_MODE_RELAXED, "{ \"v\" : 461394000 }");

   run_bson_as_json_with_opts_tests(b, BSON_JSON_MODE_CANONICAL, "{ \"v\" : { \"$numberInt\" : \"461394000\" } }");

   bson_destroy(b);
}

static void
test_bson_as_json_with_opts_int64(void)
{
   bson_t *b;

   b = bson_new();
   BSON_ASSERT(BSON_APPEND_INT64(b, "v", 461394000));

   run_bson_as_json_with_opts_tests(b, BSON_JSON_MODE_RELAXED, "{ \"v\" : 461394000 }");

   run_bson_as_json_with_opts_tests(b, BSON_JSON_MODE_CANONICAL, "{ \"v\" : { \"$numberLong\" : \"461394000\" } }");

   bson_destroy(b);
}

static void
test_bson_as_json_with_opts_timestamp(void)
{
   bson_t *b;

   b = bson_new();
   BSON_ASSERT(BSON_APPEND_TIMESTAMP(b, "v", 461394000, 2));

   run_bson_as_json_with_opts_tests(
      b, BSON_JSON_MODE_RELAXED, "{ \"v\" : { \"$timestamp\" : { \"t\" : 461394000, \"i\" : 2 } } }");

   run_bson_as_json_with_opts_tests(
      b, BSON_JSON_MODE_CANONICAL, "{ \"v\" : { \"$timestamp\" : { \"t\" : 461394000, \"i\" : 2 } } }");

   bson_destroy(b);
}

static void
test_bson_as_json_with_opts_minkey(void)
{
   bson_t *b;

   b = bson_new();
   BSON_ASSERT(BSON_APPEND_MINKEY(b, "v"));

   run_bson_as_json_with_opts_tests(b, BSON_JSON_MODE_RELAXED, "{ \"v\" : { \"$minKey\" : 1 } }");

   run_bson_as_json_with_opts_tests(b, BSON_JSON_MODE_CANONICAL, "{ \"v\" : { \"$minKey\" : 1 } }");

   bson_destroy(b);
}

static void
test_bson_as_json_with_opts_maxkey(void)
{
   bson_t *b;

   b = bson_new();
   BSON_ASSERT(BSON_APPEND_MAXKEY(b, "v"));

   run_bson_as_json_with_opts_tests(b, BSON_JSON_MODE_RELAXED, "{ \"v\" : { \"$maxKey\" : 1 } }");

   run_bson_as_json_with_opts_tests(b, BSON_JSON_MODE_CANONICAL, "{ \"v\" : { \"$maxKey\" : 1 } }");

   bson_destroy(b);
}

static void
test_bson_as_json_with_opts_decimal128(void)
{
   bson_t *b;
   bson_decimal128_t dec;

   dec.high = 0x3040ffffffffffffULL;
   dec.low = 0xffffffffffffffffULL;

   b = bson_new();
   BSON_ASSERT(BSON_APPEND_DECIMAL128(b, "v", &dec));

   run_bson_as_json_with_opts_tests(b,
                                    BSON_JSON_MODE_RELAXED,
                                    "{ \"v\" : { \"$numberDecimal\" : "
                                    "\"5192296858534827628530496329220095\" } }");

   run_bson_as_json_with_opts_tests(b,
                                    BSON_JSON_MODE_CANONICAL,
                                    "{ \"v\" : { \"$numberDecimal\" : "
                                    "\"5192296858534827628530496329220095\" } }");

   bson_destroy(b);
}

static void
test_bson_as_json_with_opts_all_types(void)
{
   char *full_canonical;
   char *full_relaxed;
   bson_oid_t oid;
   bson_decimal128_t decimal128;
   bson_t b;
   bson_t scope;

   decimal128.high = 0x3040000000000000ULL;
   decimal128.low = 0x000000000000000B;
   bson_oid_init_from_string(&oid, "123412341234abcdabcdabcd");

   bson_init(&scope);
   BCON_APPEND(&scope, "x", BCON_INT32(1));

   bson_init(&b);
   BCON_APPEND(&b, "double", BCON_DOUBLE(123.0));
   BCON_APPEND(&b, "utf8", "bar");
   BCON_APPEND(&b, "document", "{", "x", BCON_INT32(1), "}");
   BCON_APPEND(&b, "array", "[", BCON_INT32(1), "]");
   BCON_APPEND(&b, "binary", BCON_BIN(BSON_SUBTYPE_BINARY, (uint8_t *)"abc", 3));
   BCON_APPEND(&b, "undefined", BCON_UNDEFINED);
   BCON_APPEND(&b, "oid", BCON_OID(&oid));
   BCON_APPEND(&b, "false", BCON_BOOL(false));
   BCON_APPEND(&b, "true", BCON_BOOL(true));
   BCON_APPEND(&b, "date", BCON_DATE_TIME(time(NULL)));
   BCON_APPEND(&b, "null", BCON_NULL);
   BCON_APPEND(&b, "regex", BCON_REGEX("^abcd", "xi"));
   BCON_APPEND(&b, "dbpointer", BCON_DBPOINTER("mycollection", &oid));
   BCON_APPEND(&b, "code", BCON_CODE("code"));
   BCON_APPEND(&b, "symbol", BCON_SYMBOL("symbol"));
   BCON_APPEND(&b, "codewscope", BCON_CODEWSCOPE("code", &scope));
   BCON_APPEND(&b, "int32", BCON_INT32(1234));
   BCON_APPEND(&b, "timestamp", BCON_TIMESTAMP((uint32_t)time(NULL), 1234));
   BCON_APPEND(&b, "int64", BCON_INT64(4321));
   BCON_APPEND(&b, "decimal128", BCON_DECIMAL128(&decimal128));
   BCON_APPEND(&b, "minkey", BCON_MINKEY);
   BCON_APPEND(&b, "maxkey", BCON_MAXKEY);

   full_canonical = bson_as_canonical_extended_json(&b, NULL);
   full_relaxed = bson_as_relaxed_extended_json(&b, NULL);

   run_bson_as_json_with_opts_tests(&b, BSON_JSON_MODE_RELAXED, full_relaxed);
   run_bson_as_json_with_opts_tests(&b, BSON_JSON_MODE_CANONICAL, full_canonical);

   bson_free(full_canonical);
   bson_free(full_relaxed);

   bson_destroy(&b);
   bson_destroy(&scope);
}

/* Helper for test_bson_as_json_with_opts_utf8_truncation. Expects to be able to truncate the
 * string output at all lengths except those identified in a variable-length (-1) terminated integer argument list. */
static void
_test_bson_json_utf8_truncation(bson_t *test_doc, bson_json_mode_t mode, const char *expected, ...)
{
   size_t expected_len = expected ? strlen(expected) : 64;
   size_t last_valid_truncation = 0;

   for (size_t checking_len = 0; checking_len < expected_len; checking_len++) {
      bool expect_truncation_here = true;
      va_list ap;
      va_start(ap, expected);
      while (true) {
         int arg = va_arg(ap, int);
         if (arg < 0) {
            BSON_ASSERT(arg == -1);
            break;
         } else if (mlib_cmp(arg, ==, checking_len)) {
            expect_truncation_here = false;
         }
      }
      va_end(ap);
      if (expect_truncation_here) {
         last_valid_truncation = checking_len;
      }

      bson_json_opts_t *opts = bson_json_opts_new(mode, checking_len);
      size_t json_len;
      char *str = bson_as_json_with_opts(test_doc, &json_len, opts);
      bson_json_opts_destroy(opts);

      if (str) {
         BSON_ASSERT(expected);
         ASSERT_CMPSIZE_T(json_len, ==, last_valid_truncation);

         char *str_trunc = bson_strndup(str, json_len);
         char *expected_trunc = bson_strndup(expected, last_valid_truncation);
         ASSERT_CMPSTR(str_trunc, expected_trunc);
         bson_free(str_trunc);
         bson_free(expected_trunc);

         bson_free(str);
      } else {
         BSON_ASSERT(!expected);
      }
   }

   bson_destroy(test_doc);
}

static void
test_bson_as_json_with_opts_utf8_truncation(void)
{
   // Plain ASCII, in a subdocument. Just checking that all truncations here are okay.
   _test_bson_json_utf8_truncation(
      BCON_NEW("doc", "{", "a", BCON_UTF8("b"), "}"), BSON_JSON_MODE_CANONICAL, "{ \"doc\" : { \"a\" : \"b\" } }", -1);

   // Escape sequences, also fine to truncate anywhere
   _test_bson_json_utf8_truncation(BCON_NEW("doc", "{", "\x01", BCON_UTF8("\xc0\x80"), "}"),
                                   BSON_JSON_MODE_CANONICAL,
                                   "{ \"doc\" : { \"\\u0001\" : \"\\u0000\" } }",
                                   -1);

   // Invalid UTF-8 sequence, rejected by bson_as_json_with_opts
   _test_bson_json_utf8_truncation(
      BCON_NEW("foo\xff\xff bar", "{", "a", BCON_UTF8("b"), "}"), BSON_JSON_MODE_CANONICAL, NULL, -1);

   // Valid 2-byte UTF-8 sequence
   _test_bson_json_utf8_truncation(BCON_NEW("foo \xc2\xa9", "{", "\xc2\xa9 bar", BCON_UTF8("foo \xc2\xa9 bar"), "}"),
                                   BSON_JSON_MODE_CANONICAL,
                                   "{ \"foo \xc2\xa9\" : { \"\xc2\xa9 bar\" : \"foo \xc2\xa9 bar\" } }",
                                   8,
                                   17,
                                   32,
                                   -1);

   // Valid 3-byte UTF-8 sequence
   _test_bson_json_utf8_truncation(
      BCON_NEW("foo \xef\xbf\xbd", "{", "\xef\xbf\xbd bar", BCON_UTF8("foo \xef\xbf\xbd bar"), "}"),
      BSON_JSON_MODE_CANONICAL,
      "{ \"foo \xef\xbf\xbd\" : { \"\xef\xbf\xbd bar\" : \"foo \xef\xbf\xbd bar\" } }",
      8,
      9,
      18,
      19,
      34,
      35,
      -1);

   // Valid 4-byte UTF-8 sequence
   _test_bson_json_utf8_truncation(
      BCON_NEW("foo \xf4\x8f\xbf\xbf", "{", "\xf4\x8f\xbf\xbf bar", BCON_UTF8("foo \xf4\x8f\xbf\xbf bar"), "}"),
      BSON_JSON_MODE_CANONICAL,
      "{ \"foo \xf4\x8f\xbf\xbf\" : { \"\xf4\x8f\xbf\xbf bar\" : \"foo \xf4\x8f\xbf\xbf bar\" } }",
      8,
      9,
      10,
      19,
      20,
      21,
      36,
      37,
      38,
      -1);
}

static void
test_decimal128_overflowing_exponent(void)
{
   {
      bson_decimal128_t decimal128;
      BSON_ASSERT(!bson_decimal128_from_string("0E+2147483648", &decimal128));
   }

   {
      bson_decimal128_t decimal128;
      BSON_ASSERT(!bson_decimal128_from_string("0E-2147483649", &decimal128));
   }

   {
      bson_decimal128_t decimal128;
      BSON_ASSERT(!bson_decimal128_from_string("-0E+2147483648", &decimal128));
   }
   {
      bson_decimal128_t decimal128;
      BSON_ASSERT(!bson_decimal128_from_string("-0E-2147483649", &decimal128));
   }
   {
      bson_error_t error;
      const char *degenerate_extjson = "{\"d\" : {\"$numberDecimal\" : \"0E+2147483648\"}}";

      BSON_ASSERT(!bson_new_from_json((const uint8_t *)degenerate_extjson, -1, &error));
      ASSERT_ERROR_CONTAINS(error,
                            BSON_ERROR_JSON,
                            BSON_JSON_ERROR_READ_INVALID_PARAM,
                            "Invalid input string \"0E+2147483648\", looking for DECIMAL128");
   }

   {
      bson_error_t error;
      const char *degenerate_extjson = "{\"d\" : {\"$numberDecimal\" : \"0E-2147483649\"}}";

      BSON_ASSERT(!bson_new_from_json((const uint8_t *)degenerate_extjson, -1, &error));
      ASSERT_ERROR_CONTAINS(error,
                            BSON_ERROR_JSON,
                            BSON_JSON_ERROR_READ_INVALID_PARAM,
                            "Invalid input string \"0E-2147483649\", looking for DECIMAL128");
   }

   {
      bson_error_t error;
      const char *degenerate_extjson = "{\"d\" : {\"$numberDecimal\" : \"-0E+2147483648\"}}";

      BSON_ASSERT(!bson_new_from_json((const uint8_t *)degenerate_extjson, -1, &error));
      ASSERT_ERROR_CONTAINS(error,
                            BSON_ERROR_JSON,
                            BSON_JSON_ERROR_READ_INVALID_PARAM,
                            "Invalid input string \"-0E+2147483648\", looking for DECIMAL128");
   }

   {
      bson_error_t error;
      const char *degenerate_extjson = "{\"d\" : {\"$numberDecimal\" : \"-0E-2147483649\"}}";

      BSON_ASSERT(!bson_new_from_json((const uint8_t *)degenerate_extjson, -1, &error));
      ASSERT_ERROR_CONTAINS(error,
                            BSON_ERROR_JSON,
                            BSON_JSON_ERROR_READ_INVALID_PARAM,
                            "Invalid input string \"-0E-2147483649\", looking for DECIMAL128");
   }

   {
      bson_decimal128_t decimal128;
      BSON_ASSERT(!bson_decimal128_from_string("0E+99999999999999999999", &decimal128));
   }
   {
      bson_decimal128_t decimal128;
      BSON_ASSERT(!bson_decimal128_from_string("0E-99999999999999999999", &decimal128));
   }
}

static void
test_parse_array(void)
{
   {
      bson_t *b1;
      {
         const char *json = BSON_STR([ {"$code" : "A"} ]);
         bson_error_t error;
         b1 = bson_new_from_json((const uint8_t *)json, -1, &error);
         ASSERT_OR_PRINT(b1, error);
      }

      bson_t *b2;
      {
         const char *json = BSON_STR({"0" : {"$code" : "A"}});
         bson_error_t error;
         b2 = bson_new_from_json((const uint8_t *)json, -1, &error);
         ASSERT_OR_PRINT(b2, error);
      }

      ASSERT(bson_equal(b1, b2));
      bson_destroy(b2);
      bson_destroy(b1);
   }

   {
      bson_t *b1;
      {
         const char *json = BSON_STR([ {"$code" : "A"}, {"$code" : "B"} ]);
         bson_error_t error;
         b1 = bson_new_from_json((const uint8_t *)json, -1, &error);
         ASSERT_OR_PRINT(b1, error);
      }

      bson_t *b2;
      {
         const char *json = BSON_STR({"0" : {"$code" : "A"}}, {"1" : {"$code" : "B"}});
         bson_error_t error;
         b2 = bson_new_from_json((const uint8_t *)json, -1, &error);
         ASSERT_OR_PRINT(b2, error);
      }

      ASSERT(bson_equal(b1, b2));
      bson_destroy(b2);
      bson_destroy(b1);
   }

   {
      bson_t *b1;
      {
         const char *json =
            BSON_STR([ {"$dbPointer" : {"$ref" : "foo", "$id" : {"$oid" : "01234567890abcdef0123456"}}} ]);
         bson_error_t error;
         b1 = bson_new_from_json((const uint8_t *)json, -1, &error);
         ASSERT_OR_PRINT(b1, error);
      }

      bson_t *b2;
      {
         const char *json =
            BSON_STR({"0" : {"$dbPointer" : {"$ref" : "foo", "$id" : {"$oid" : "01234567890abcdef0123456"}}}});
         bson_error_t error;
         b2 = bson_new_from_json((const uint8_t *)json, -1, &error);
         ASSERT_OR_PRINT(b2, error);
      }

      ASSERT(bson_equal(b1, b2));
      bson_destroy(b2);
      bson_destroy(b1);
   }

   {
      bson_t *b1;
      {
         const char *json = BSON_STR([
            {"$dbPointer" : {"$ref" : "foo", "$id" : {"$oid" : "01234567890abcdef0123456"}}},
            {"$dbPointer" : {"$ref" : "foo", "$id" : {"$oid" : "01234567890abcdef0123456"}}}
         ]);
         bson_error_t error;
         b1 = bson_new_from_json((const uint8_t *)json, -1, &error);
         ASSERT_OR_PRINT(b1, error);
      }

      bson_t *b2;
      {
         const char *json =
            BSON_STR({"0" : {"$dbPointer" : {"$ref" : "foo", "$id" : {"$oid" : "01234567890abcdef0123456"}}}},
                     {"1" : {"$dbPointer" : {"$ref" : "foo", "$id" : {"$oid" : "01234567890abcdef0123456"}}}});

         bson_error_t error;
         b2 = bson_new_from_json((const uint8_t *)json, -1, &error);
         ASSERT_OR_PRINT(b2, error);
      }

      ASSERT(bson_equal(b1, b2));
      bson_destroy(b2);
      bson_destroy(b1);
   }
}

static void
test_bson_as_json_all_formats(void)
{
   bson_error_t error;

#define ASSERT_AS_JSON(bson, mode, expect_single_quoted)                         \
   if (1) {                                                                      \
      bson_json_opts_t *opts = bson_json_opts_new(mode, BSON_MAX_LEN_UNLIMITED); \
      char *got = bson_as_json_with_opts(bson, NULL, opts);                      \
      ASSERT(got);                                                               \
      char *expect = single_quotes_to_double(expect_single_quoted);              \
      ASSERT_CMPSTR(got, expect);                                                \
      bson_free(got);                                                            \
      bson_free(expect);                                                         \
      bson_json_opts_destroy(opts);                                              \
   } else                                                                        \
      (void)0


   // Test each BSON type listed on: https://www.mongodb.com/docs/manual/reference/bson-types/
   {
      // BSON type: double
      {
         bson_t *b = BCON_NEW("double", BCON_DOUBLE(1.5));
         ASSERT_AS_JSON(b, BSON_JSON_MODE_CANONICAL, "{ 'double' : { '$numberDouble' : '1.5' } }");
         ASSERT_AS_JSON(b, BSON_JSON_MODE_RELAXED, "{ 'double' : 1.5 }");
         ASSERT_AS_JSON(b, BSON_JSON_MODE_LEGACY, "{ 'double' : 1.5 }");
         bson_destroy(b);
      }

      // BSON type: string
      {
         bson_t *b = BCON_NEW("string", "foo");
         ASSERT_AS_JSON(b, BSON_JSON_MODE_CANONICAL, "{ 'string' : 'foo' }");
         ASSERT_AS_JSON(b, BSON_JSON_MODE_RELAXED, "{ 'string' : 'foo' }");
         ASSERT_AS_JSON(b, BSON_JSON_MODE_LEGACY, "{ 'string' : 'foo' }");
         bson_destroy(b);
      }

      // BSON type: object
      {
         bson_t *b = BCON_NEW("object", "{", "a", "b", "}");
         ASSERT_AS_JSON(b, BSON_JSON_MODE_CANONICAL, "{ 'object' : { 'a' : 'b' } }");
         ASSERT_AS_JSON(b, BSON_JSON_MODE_RELAXED, "{ 'object' : { 'a' : 'b' } }");
         ASSERT_AS_JSON(b, BSON_JSON_MODE_LEGACY, "{ 'object' : { 'a' : 'b' } }");
         bson_destroy(b);
      }

      // BSON type: array
      {
         bson_t *b = BCON_NEW("array", "[", "a", "]");
         ASSERT_AS_JSON(b, BSON_JSON_MODE_CANONICAL, "{ 'array' : [ 'a' ] }");
         ASSERT_AS_JSON(b, BSON_JSON_MODE_RELAXED, "{ 'array' : [ 'a' ] }");
         ASSERT_AS_JSON(b, BSON_JSON_MODE_LEGACY, "{ 'array' : [ 'a' ] }");
         bson_destroy(b);
      }

      // BSON type: binData
      {
         bson_t *b = BCON_NEW("binData", BCON_BIN(BSON_SUBTYPE_BINARY, (uint8_t *)"abc", 3u));
         ASSERT_AS_JSON(
            b, BSON_JSON_MODE_CANONICAL, "{ 'binData' : { '$binary' : { 'base64' : 'YWJj', 'subType' : '00' } } }");
         ASSERT_AS_JSON(
            b, BSON_JSON_MODE_RELAXED, "{ 'binData' : { '$binary' : { 'base64' : 'YWJj', 'subType' : '00' } } }");
         ASSERT_AS_JSON(b, BSON_JSON_MODE_LEGACY, "{ 'binData' : { '$binary' : 'YWJj', '$type' : '00' } }");
         bson_destroy(b);
      }

      // BSON type: undefined
      {
         bson_t *b = BCON_NEW("undefined", BCON_UNDEFINED);
         ASSERT_AS_JSON(b, BSON_JSON_MODE_CANONICAL, "{ 'undefined' : { '$undefined' : true } }");
         ASSERT_AS_JSON(b, BSON_JSON_MODE_RELAXED, "{ 'undefined' : { '$undefined' : true } }");
         ASSERT_AS_JSON(b, BSON_JSON_MODE_LEGACY, "{ 'undefined' : { '$undefined' : true } }");
         bson_destroy(b);
      }

      // BSON type: objectId
      {
         bson_oid_t oid;
         bson_oid_init_from_string(&oid, "123412341234abcdabcdabcd");

         bson_t *b = BCON_NEW("objectId", BCON_OID(&oid));
         ASSERT_AS_JSON(b, BSON_JSON_MODE_CANONICAL, "{ 'objectId' : { '$oid' : '123412341234abcdabcdabcd' } }");
         ASSERT_AS_JSON(b, BSON_JSON_MODE_RELAXED, "{ 'objectId' : { '$oid' : '123412341234abcdabcdabcd' } }");
         ASSERT_AS_JSON(b, BSON_JSON_MODE_LEGACY, "{ 'objectId' : { '$oid' : '123412341234abcdabcdabcd' } }");
         bson_destroy(b);
      }

      // BSON type: bool
      {
         bson_t *b = BCON_NEW("bool", BCON_BOOL(true));
         ASSERT_AS_JSON(b, BSON_JSON_MODE_CANONICAL, "{ 'bool' : true }");
         ASSERT_AS_JSON(b, BSON_JSON_MODE_RELAXED, "{ 'bool' : true }");
         ASSERT_AS_JSON(b, BSON_JSON_MODE_LEGACY, "{ 'bool' : true }");
         bson_destroy(b);
      }

      // BSON type: date
      {
         const char *date_str = "2024-01-01T00:00Z";
         int64_t date_ms;
         ASSERT_OR_PRINT(_bson_iso8601_date_parse(date_str, (int32_t)strlen(date_str), &date_ms, &error), error);

         bson_t *b = BCON_NEW("date", BCON_DATE_TIME(date_ms));
         ASSERT_AS_JSON(b, BSON_JSON_MODE_CANONICAL, "{ 'date' : { '$date' : { '$numberLong' : '1704067200000' } } }");
         ASSERT_AS_JSON(b, BSON_JSON_MODE_RELAXED, "{ 'date' : { '$date' : '2024-01-01T00:00:00Z' } }");
         ASSERT_AS_JSON(b, BSON_JSON_MODE_LEGACY, "{ 'date' : { '$date' : 1704067200000 } }");
         bson_destroy(b);
      }

      // BSON type: null
      {
         bson_t *b = BCON_NEW("null", BCON_NULL);
         ASSERT_AS_JSON(b, BSON_JSON_MODE_CANONICAL, "{ 'null' : null }");
         ASSERT_AS_JSON(b, BSON_JSON_MODE_RELAXED, "{ 'null' : null }");
         ASSERT_AS_JSON(b, BSON_JSON_MODE_LEGACY, "{ 'null' : null }");
         bson_destroy(b);
      }

      // BSON type: regex
      {
         bson_t *b = BCON_NEW("regex", BCON_REGEX("a.*b", "i"));
         ASSERT_AS_JSON(b,
                        BSON_JSON_MODE_CANONICAL,
                        "{ 'regex' : { '$regularExpression' : { 'pattern' : 'a.*b', 'options' : 'i' } } }");
         ASSERT_AS_JSON(b,
                        BSON_JSON_MODE_RELAXED,
                        "{ 'regex' : { '$regularExpression' : { 'pattern' : 'a.*b', 'options' : 'i' } } }");
         ASSERT_AS_JSON(b, BSON_JSON_MODE_LEGACY, "{ 'regex' : { '$regex' : 'a.*b', '$options' : 'i' } }");
         bson_destroy(b);
      }

      // BSON type: dbPointer
      {
         bson_oid_t oid;
         bson_oid_init_from_string(&oid, "123412341234abcdabcdabcd");

         bson_t *b = BCON_NEW("dbPointer", BCON_DBPOINTER("coll", &oid));
         ASSERT_AS_JSON(b,
                        BSON_JSON_MODE_CANONICAL,
                        "{ 'dbPointer' : { '$dbPointer' : { '$ref' : 'coll', '$id' : { '$oid' : "
                        "'123412341234abcdabcdabcd' } } } }");
         ASSERT_AS_JSON(b,
                        BSON_JSON_MODE_RELAXED,
                        "{ 'dbPointer' : { '$dbPointer' : { '$ref' : 'coll', '$id' : { '$oid' : "
                        "'123412341234abcdabcdabcd' } } } }");
         ASSERT_AS_JSON(
            b, BSON_JSON_MODE_LEGACY, "{ 'dbPointer' : { '$ref' : 'coll', '$id' : '123412341234abcdabcdabcd' } }");
         bson_destroy(b);
      }

      // BSON type: javascript
      {
         bson_t *b = BCON_NEW("javascript", BCON_CODE("code"));
         ASSERT_AS_JSON(b, BSON_JSON_MODE_CANONICAL, "{ 'javascript' : { '$code' : 'code' } }");
         ASSERT_AS_JSON(b, BSON_JSON_MODE_RELAXED, "{ 'javascript' : { '$code' : 'code' } }");
         ASSERT_AS_JSON(b, BSON_JSON_MODE_LEGACY, "{ 'javascript' : { '$code' : 'code' } }");
         bson_destroy(b);
      }

      // BSON type: symbol
      {
         bson_t *b = BCON_NEW("symbol", BCON_SYMBOL("symbol"));
         ASSERT_AS_JSON(b, BSON_JSON_MODE_CANONICAL, "{ 'symbol' : { '$symbol' : 'symbol' } }");
         ASSERT_AS_JSON(b, BSON_JSON_MODE_RELAXED, "{ 'symbol' : { '$symbol' : 'symbol' } }");
         ASSERT_AS_JSON(b, BSON_JSON_MODE_LEGACY, "{ 'symbol' : 'symbol' }");
         bson_destroy(b);
      }

      // BSON type: int
      {
         bson_t *b = BCON_NEW("int", BCON_INT32(123));
         ASSERT_AS_JSON(b, BSON_JSON_MODE_CANONICAL, "{ 'int' : { '$numberInt' : '123' } }");
         ASSERT_AS_JSON(b, BSON_JSON_MODE_RELAXED, "{ 'int' : 123 }");
         ASSERT_AS_JSON(b, BSON_JSON_MODE_LEGACY, "{ 'int' : 123 }");
         bson_destroy(b);
      }

      // BSON type: timestamp
      {
         bson_t *b = BCON_NEW("timestamp", BCON_TIMESTAMP(0u, 1u));
         ASSERT_AS_JSON(b, BSON_JSON_MODE_CANONICAL, "{ 'timestamp' : { '$timestamp' : { 't' : 0, 'i' : 1 } } }");
         ASSERT_AS_JSON(b, BSON_JSON_MODE_RELAXED, "{ 'timestamp' : { '$timestamp' : { 't' : 0, 'i' : 1 } } }");
         ASSERT_AS_JSON(b, BSON_JSON_MODE_LEGACY, "{ 'timestamp' : { '$timestamp' : { 't' : 0, 'i' : 1 } } }");
         bson_destroy(b);
      }

      // BSON type: long
      {
         bson_t *b = BCON_NEW("long", BCON_INT64(456));
         ASSERT_AS_JSON(b, BSON_JSON_MODE_CANONICAL, "{ 'long' : { '$numberLong' : '456' } }");
         ASSERT_AS_JSON(b, BSON_JSON_MODE_RELAXED, "{ 'long' : 456 }");
         ASSERT_AS_JSON(b, BSON_JSON_MODE_LEGACY, "{ 'long' : 456 }");
         bson_destroy(b);
      }

      // BSON type: decimal
      {
         bson_decimal128_t decimal128;
         ASSERT(bson_decimal128_from_string("1.23", &decimal128));

         bson_t *b = BCON_NEW("decimal", BCON_DECIMAL128(&decimal128));
         ASSERT_AS_JSON(b, BSON_JSON_MODE_CANONICAL, "{ 'decimal' : { '$numberDecimal' : '1.23' } }");
         ASSERT_AS_JSON(b, BSON_JSON_MODE_RELAXED, "{ 'decimal' : { '$numberDecimal' : '1.23' } }");
         ASSERT_AS_JSON(b, BSON_JSON_MODE_LEGACY, "{ 'decimal' : { '$numberDecimal' : '1.23' } }");
         bson_destroy(b);
      }

      // BSON type: minKey
      {
         bson_t *b = BCON_NEW("minKey", BCON_MINKEY);
         ASSERT_AS_JSON(b, BSON_JSON_MODE_CANONICAL, "{ 'minKey' : { '$minKey' : 1 } }");
         ASSERT_AS_JSON(b, BSON_JSON_MODE_RELAXED, "{ 'minKey' : { '$minKey' : 1 } }");
         ASSERT_AS_JSON(b, BSON_JSON_MODE_LEGACY, "{ 'minKey' : { '$minKey' : 1 } }");
         bson_destroy(b);
      }

      // BSON type: maxKey
      {
         bson_t *b = BCON_NEW("maxKey", BCON_MAXKEY);
         ASSERT_AS_JSON(b, BSON_JSON_MODE_CANONICAL, "{ 'maxKey' : { '$maxKey' : 1 } }");
         ASSERT_AS_JSON(b, BSON_JSON_MODE_RELAXED, "{ 'maxKey' : { '$maxKey' : 1 } }");
         ASSERT_AS_JSON(b, BSON_JSON_MODE_LEGACY, "{ 'maxKey' : { '$maxKey' : 1 } }");
         bson_destroy(b);
      }
   }


   // Test other cases referenced in the Extended JSON specification that sometimes encode differently.
   {
      // Code with scope
      {
         bson_t *scope = BCON_NEW("a", "b");

         bson_t *b = BCON_NEW("codewscope", BCON_CODEWSCOPE("code", scope));
         ASSERT_AS_JSON(
            b, BSON_JSON_MODE_CANONICAL, "{ 'codewscope' : { '$code' : 'code', '$scope' : { 'a' : 'b' } } }");
         ASSERT_AS_JSON(b, BSON_JSON_MODE_RELAXED, "{ 'codewscope' : { '$code' : 'code', '$scope' : { 'a' : 'b' } } }");
         ASSERT_AS_JSON(b, BSON_JSON_MODE_LEGACY, "{ 'codewscope' : { '$code' : 'code', '$scope' : { 'a' : 'b' } } }");
         bson_destroy(scope);
         bson_destroy(b);
      }

      // Double NaN.
      {
         bson_t *b = BCON_NEW("double_nan", BCON_DOUBLE(NAN));
         ASSERT_AS_JSON(b, BSON_JSON_MODE_CANONICAL, "{ 'double_nan' : { '$numberDouble' : 'NaN' } }");
         ASSERT_AS_JSON(b, BSON_JSON_MODE_RELAXED, "{ 'double_nan' : { '$numberDouble' : 'NaN' } }");
         // Legacy encoding is platform dependent. May encode to '[-]nan' or '[-]nan(n-char-sequence)' without quotes.
         {
            char *as_legacy = bson_as_legacy_extended_json(b, NULL);
            char *ptr = as_legacy;
            const char *expected_prefix = "{ \"double_nan\" : ";
            ASSERT_STARTSWITH(ptr, expected_prefix);
            ptr += strlen(expected_prefix);
            if (ptr[0] == '-') {
               ptr += 1;
            }
            ASSERT_STARTSWITH(ptr, "nan");
            bson_free(as_legacy);
         }
         bson_destroy(b);
      }

      // Double Infinity.
      {
         bson_t *b = BCON_NEW("double_inf", BCON_DOUBLE(INFINITY));
         ASSERT_AS_JSON(b, BSON_JSON_MODE_CANONICAL, "{ 'double_inf' : { '$numberDouble' : 'Infinity' } }");
         ASSERT_AS_JSON(b, BSON_JSON_MODE_RELAXED, "{ 'double_inf' : { '$numberDouble' : 'Infinity' } }");
         // Legacy encoding is platform dependent. May encode to 'inf' or 'infinity' without quotes.
         {
            char *as_legacy = bson_as_legacy_extended_json(b, NULL);
            bool found_match = (0 == strcmp("{ \"double_inf\" : inf }", as_legacy)) ||
                               (0 == strcmp("{ \"double_inf\" : infinity }", as_legacy));
            if (!found_match) {
               test_error("got unexpected Extended Legacy JSON: %s\n", as_legacy);
            }
            bson_free(as_legacy);
         }
         bson_destroy(b);
      }

      // Date before year 1970.
      {
         const char *date_str = "1969-01-01T00:00Z";
         int64_t date_ms;
         ASSERT_OR_PRINT(_bson_iso8601_date_parse(date_str, (int32_t)strlen(date_str), &date_ms, &error), error);

         bson_t *b = BCON_NEW("date_before_1970", BCON_DATE_TIME(-1));
         ASSERT_AS_JSON(b, BSON_JSON_MODE_CANONICAL, "{ 'date_before_1970' : { '$date' : { '$numberLong' : '-1' } } }");
         ASSERT_AS_JSON(b, BSON_JSON_MODE_RELAXED, "{ 'date_before_1970' : { '$date' : { '$numberLong' : '-1' } } }");
         ASSERT_AS_JSON(b, BSON_JSON_MODE_LEGACY, "{ 'date_before_1970' : { '$date' : -1 } }");
         bson_destroy(b);
      }

      // Date after year 9999 (excluding year 9999).
      {
         const int64_t msec_since_Y10K = 253402300800000; // Milliseconds since 10000-01-01T00:00:00Z.
         bson_t *b = BCON_NEW("date_after_9999", BCON_DATE_TIME(msec_since_Y10K));
         ASSERT_AS_JSON(
            b, BSON_JSON_MODE_CANONICAL, "{ 'date_after_9999' : { '$date' : { '$numberLong' : '253402300800000' } } }");
         ASSERT_AS_JSON(
            b, BSON_JSON_MODE_RELAXED, "{ 'date_after_9999' : { '$date' : { '$numberLong' : '253402300800000' } } }");
         ASSERT_AS_JSON(b, BSON_JSON_MODE_LEGACY, "{ 'date_after_9999' : { '$date' : 253402300800000 } }");
         bson_destroy(b);
      }
   }
}


void
test_json_install(TestSuite *suite)
{
   TestSuite_Add(suite, "/bson/as_json/x1000", test_bson_as_json_x1000);
   TestSuite_Add(suite, "/bson/as_json/multi", test_bson_as_json_multi);
   TestSuite_Add(suite, "/bson/as_json/string", test_bson_as_json_string);
   TestSuite_Add(suite, "/bson/as_json/int32", test_bson_as_json_int32);
   TestSuite_Add(suite, "/bson/as_json/int64", test_bson_as_json_int64);
   TestSuite_Add(suite, "/bson/as_json/double", test_bson_as_json_double);
   TestSuite_Add(suite, "/bson/as_json/double/nonfinite", test_bson_as_json_double_nonfinite);
   TestSuite_Add(suite, "/bson/as_json/code", test_bson_as_json_code);
   TestSuite_Add(suite, "/bson/as_json/date_time", test_bson_as_json_date_time);
   TestSuite_Add(suite, "/bson/as_json/regex", test_bson_as_json_regex);
   TestSuite_Add(suite, "/bson/as_json/symbol", test_bson_as_json_symbol);
   TestSuite_Add(suite, "/bson/as_json/utf8", test_bson_as_json_utf8);
   TestSuite_Add(suite, "/bson/as_json/dbpointer", test_bson_as_json_dbpointer);
   TestSuite_Add(suite, "/bson/as_canonical_extended_json/dbpointer", test_bson_as_canonical_extended_json_dbpointer);
   TestSuite_Add(suite, "/bson/as_json/stack_overflow", test_bson_as_json_stack_overflow);
   TestSuite_Add(suite, "/bson/as_json/corrupt", test_bson_corrupt);
   TestSuite_Add(suite, "/bson/as_json/corrupt_utf8", test_bson_corrupt_utf8);
   TestSuite_Add(suite, "/bson/as_json/corrupt_binary", test_bson_corrupt_binary);
   TestSuite_Add(suite, "/bson/as_json_spacing", test_bson_as_json_spacing);
   TestSuite_Add(suite, "/bson/array_as_legacy_json", test_bson_array_as_legacy_json);
   TestSuite_Add(suite, "/bson/array_as_relaxed_json", test_bson_array_as_relaxed_json);
   TestSuite_Add(suite, "/bson/array_as_canonical_json", test_bson_array_as_canonical_json);
   TestSuite_Add(suite, "/bson/json/allow_multiple", test_bson_json_allow_multiple);
   TestSuite_Add(suite, "/bson/json/read/buffering", test_bson_json_read_buffering);
   TestSuite_Add(suite, "/bson/json/read", test_bson_json_read);
   TestSuite_Add(suite, "/bson/json/inc", test_bson_json_inc);
   TestSuite_Add(suite, "/bson/json/array", test_bson_json_array);
   TestSuite_Add(suite, "/bson/json/array/single", test_bson_json_array_single);
   TestSuite_Add(suite, "/bson/json/array/int64", test_bson_json_array_int64);
   TestSuite_Add(suite, "/bson/json/array/subdoc", test_bson_json_array_subdoc);
   TestSuite_Add(suite, "/bson/json/date", test_bson_json_date);
   TestSuite_Add(suite, "/bson/json/date/legacy", test_bson_json_date_legacy);
   TestSuite_Add(suite, "/bson/json/date/long", test_bson_json_date_numberlong);
   TestSuite_Add(suite, "/bson/json/timestamp", test_bson_json_timestamp);
   TestSuite_Add(suite, "/bson/json/read/empty", test_bson_json_read_empty);
   TestSuite_Add(suite, "/bson/json/read/missing_complex", test_bson_json_read_missing_complex);
   TestSuite_Add(suite, "/bson/json/read/invalid_binary", test_bson_json_read_invalid_binary);
   TestSuite_Add(suite, "/bson/json/read/invalid_json", test_bson_json_read_invalid_json);
   TestSuite_Add(suite, "/bson/json/read/bad_cb", test_bson_json_read_bad_cb);
   TestSuite_Add(suite, "/bson/json/read/invalid", test_bson_json_read_invalid);
   TestSuite_Add(suite, "/bson/json/read/invalid_base64", test_bson_json_read_invalid_base64);
   TestSuite_Add(suite, "/bson/json/read/raw_utf8", test_bson_json_read_raw_utf8);
   TestSuite_Add(suite, "/bson/json/read/corrupt_utf8", test_bson_json_read_corrupt_utf8);
   TestSuite_Add(suite, "/bson/json/read/corrupt_document", test_bson_json_read_corrupt_document);
   TestSuite_Add(suite, "/bson/json/read/decimal128", test_bson_json_read_decimal128);
   TestSuite_Add(suite, "/bson/json/read/dbpointer", test_bson_json_read_dbpointer);
   TestSuite_Add(suite, "/bson/json/read/legacy_regex", test_bson_json_read_legacy_regex);
   TestSuite_Add(suite, "/bson/json/read/regex_options_order", test_bson_json_read_regex_options_order);
   TestSuite_Add(suite, "/bson/json/read/binary", test_bson_json_read_binary);
   TestSuite_Add(suite, "/bson/json/read/legacy_binary", test_bson_json_read_legacy_binary);
   TestSuite_Add(suite, "/bson/json/read/file", test_json_reader_new_from_file);
   TestSuite_Add(suite, "/bson/json/read/bad_path", test_json_reader_new_from_bad_path);
   TestSuite_Add(suite, "/bson/json/read/$numberLong", test_bson_json_number_long);
   TestSuite_Add(suite, "/bson/json/read/$numberLong/zero", test_bson_json_number_long_zero);
   TestSuite_Add(suite, "/bson/json/read/code", test_bson_json_code);
   TestSuite_Add(suite, "/bson/json/read/code/errors", test_bson_json_code_errors);
   TestSuite_Add(suite, "/bson/json/read/dbref", test_bson_json_dbref);
   TestSuite_Add(suite, "/bson/json/read/uescape", test_bson_json_uescape);
   TestSuite_Add(suite, "/bson/json/read/uescape/key", test_bson_json_uescape_key);
   TestSuite_Add(suite, "/bson/json/read/uescape/bad", test_bson_json_uescape_bad);
   TestSuite_Add(suite, "/bson/json/read/int32", test_bson_json_int32);
   TestSuite_Add(suite, "/bson/json/read/int64", test_bson_json_int64);
   TestSuite_Add(suite, "/bson/json/read/double", test_bson_json_double);
   TestSuite_Add(suite, "/bson/json/read/double/overflow", test_bson_json_double_overflow);
   TestSuite_Add(suite, "/bson/json/read/double/nan", test_bson_json_nan);
   TestSuite_Add(suite, "/bson/json/read/double/infinity", test_bson_json_infinity);
   TestSuite_Add(suite, "/bson/json/read/null", test_bson_json_null);
   TestSuite_Add(suite, "/bson/json/read/empty_final", test_bson_json_empty_final_object);
   TestSuite_Add(suite, "/bson/as_json/decimal128", test_bson_as_json_decimal128);
   TestSuite_Add(suite, "/bson/json/read/$numberDecimal", test_bson_json_number_decimal);
   TestSuite_Add(suite, "/bson/json/errors", test_bson_json_errors);
   TestSuite_Add(suite, "/bson/integer/width", test_bson_integer_width);
   TestSuite_Add(suite, "/bson/json/read/null_in_str", test_bson_json_null_in_str);
   TestSuite_Add(suite, "/bson/json/read/merge_multiple", test_bson_json_merge_multiple);
   TestSuite_Add(suite, "/bson/json/read/extra_chars", test_bson_json_extra_chars);
   TestSuite_Add(suite, "/bson/as_json/multi_object", test_bson_as_json_multi_object);
   TestSuite_Add(suite, "/bson/as_json_with_opts/double", test_bson_as_json_with_opts_double);
   TestSuite_Add(suite, "/bson/as_json_with_opts/utf8", test_bson_as_json_with_opts_utf8);
   TestSuite_Add(suite, "/bson/as_json_with_opts/document", test_bson_as_json_with_opts_document);
   TestSuite_Add(suite, "/bson/as_json_with_opts/array", test_bson_as_json_with_opts_array);
   TestSuite_Add(suite, "/bson/as_json_with_opts/binary", test_bson_as_json_with_opts_binary);
   TestSuite_Add(suite, "/bson/as_json_with_opts/undefined", test_bson_as_json_with_opts_undefined);
   TestSuite_Add(suite, "/bson/as_json_with_opts/oid", test_bson_as_json_with_opts_oid);
   TestSuite_Add(suite, "/bson/as_json_with_opts/bool", test_bson_as_json_with_opts_bool);
   TestSuite_Add(suite, "/bson/as_json_with_opts/date_time", test_bson_as_json_with_opts_date_time);
   TestSuite_Add(suite, "/bson/as_json_with_opts/null", test_bson_as_json_with_opts_null);
   TestSuite_Add(suite, "/bson/as_json_with_opts/regex", test_bson_as_json_with_opts_regex);
   TestSuite_Add(suite, "/bson/as_json_with_opts/dbpointer", test_bson_as_json_with_opts_dbpointer);
   TestSuite_Add(suite, "/bson/as_json_with_opts/code", test_bson_as_json_with_opts_code);
   TestSuite_Add(suite, "/bson/as_json_with_opts/symbol", test_bson_as_json_with_opts_symbol);
   TestSuite_Add(suite, "/bson/as_json_with_opts/codewscope", test_bson_as_json_with_opts_codewscope);
   TestSuite_Add(suite, "/bson/as_json_with_opts/int32", test_bson_as_json_with_opts_int32);
   TestSuite_Add(suite, "/bson/as_json_with_opts/int64", test_bson_as_json_with_opts_int64);
   TestSuite_Add(suite, "/bson/as_json_with_opts/timestamp", test_bson_as_json_with_opts_timestamp);
   TestSuite_Add(suite, "/bson/as_json_with_opts/minkey", test_bson_as_json_with_opts_minkey);
   TestSuite_Add(suite, "/bson/as_json_with_opts/maxkey", test_bson_as_json_with_opts_maxkey);
   TestSuite_Add(suite, "/bson/as_json_with_opts/decimal128", test_bson_as_json_with_opts_decimal128);
   TestSuite_Add(suite, "/bson/as_json_with_opts/all_types", test_bson_as_json_with_opts_all_types);
   TestSuite_Add(suite, "/bson/as_json_with_opts/utf8_truncation", test_bson_as_json_with_opts_utf8_truncation);
   TestSuite_Add(suite, "/bson/parse_array", test_parse_array);
   TestSuite_Add(suite, "/bson/decimal128_overflowing_exponent", test_decimal128_overflowing_exponent);
   TestSuite_Add(suite, "/bson/as_json/all_formats", test_bson_as_json_all_formats);
}
